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576782Portable Crimp Tools, Premium Crimp Tooling, Not Releasable, Not Adjustable,Fixed In Tool, TE Product Specification (114-) / MIL Spec08/31/2020 04:08PM | Page 1 For support call+1 800 522 6752Application Tooling>Portable Crimp ToolsCertification:Cannot be CertifiedSpecification Type:MIL Spec, TE Product Specification (114-)Die Sets Type:Fixed In ToolRatchet Configuration:Not Releasable, Not AdjustableTool Grade:Premium Crimp ToolingFeaturesOtherCrimp Form-Wire Barrel Type Closed Barrel - Confined CrescentTool Grade Premium Crimp ToolingRatchet Configuration Not Releasable, Not AdjustableDie Sets Type Fixed In ToolSpecification Type MIL Spec, TE Product Specification (114-)Certification Cannot be CertifiedPower Type Battery, ManualTool Type Heavy Head Hand ToolProduct ComplianceFor compliance documentation, visit the product page on >EU RoHS Directive 2011/65/EU Out of ScopeEU ELV Directive 2000/53/EC Out of ScopeChina RoHS 2 Directive MIIT Order No 32, 2016Not reviewed for China RoHS complianceEU REACH Regulation (EC) No. 1907/2006Current ECHA Candidate List: JUN 2020(209)Candidate List Declared Against: JUN 2016(169)Does not contain REACH SVHCHalogen Content Not Yet Reviewed for halogen content576782 ACTIVEAMPTE Internal #:576782Portable Crimp Tools, Premium Crimp Tooling, Not Releasable,Not Adjustable, Fixed In Tool, TE Product Specification (114-) / MILSpecView on >08/31/2020 04:08PM | Page 2For support call+1 800 522 6752Halogen Content Not Yet Reviewed for halogen content Solder Process CapabilityNot applicable for solder process capabilityProduct Compliance DisclaimerThis information is provided based on reasonable inquiry of our suppliers and represents our current actual knowledge based on the information they provided. This information is subject to change. The part numbers that TE has identified as EU RoHS compliant have a maximum concentration of 0.1% by weight in homogenous materials for lead, hexavalent chromium, mercury, PBB, PBDE, DBP, BBP, DEHP, DIBP, and 0.01% for cadmium, or qualify for an exemption to these limits as defined in the Annexes of Directive 2011/65/EU (RoHS2). Finished electrical and electronic equipment products will be CE marked as required by Directive 2011/65/EU. Components may not be CE marked.Additionally, the part numbers that TE has identified as EU ELV compliant have a maximum concentration of 0.1% by weight in homogenous materials for lead, hexavalent chromium, and mercury, and 0.01% for cadmium, or qualify for an exemption to these limits as defined in the Annexes of Directive 2000/53/EC (ELV). Regarding the REACH Regulations, TE’s information on SVHC in articles for this part number is still based on the European Chemical Agency (ECHA) ‘Guidance on requirements for substances in articles’(Version: 2, April 2011), applying the 0.1% weight on weight concentration threshold at the finished product level. TE is aware of the European Court of Justice ruling of September 10th, 2015 also known as O5A (Once An Article Always An Article) stating that, in case of ‘complex object’, the threshold for a SVHC must be applied to both the product as a whole and simultaneously to each of the articles forming part of its composition. TE has evaluated this ruling based on the new ECHA “Guidance on requirements for substances in articles” (June 2017, version 4.0) and will be updating its statements accordingly.TE Model / Part #1577966-1TERMINAL, PEEK PIDG STRATO, 14-12 AWGTE Model / Part #1577637-1TERMINAL RT PIDG PEEK STRATO 14-12 AWGTE Model / Part #1577640-1TERMINAL RT PIDG PEEK STRATO 14-12 AWGTE Model / Part #15287214-12 PIDG NYLON RT NO 10WHITETE Model / Part #15287414-12 PIDG R/T NO6STUD WHITETE Model / Part #50839-1PIDG PTFE STRATO RING 14 6TE Model / Part #15287314-12 PIDG NYLON RT NO 8 WHITETE Model / Part #1577638-1TERMINAL RT PIDG PEEK STRATO 14-12 AWGTE Model / Part #1577639-1TERMINAL RT PIDG PEEK STRATO 14-12 AWGTE Model / Part #1577641-1TERMINAL, PEEK PIDG STRATO, 14-12AWGTE Model / Part #15287114-12 PIDG R/T 1/4 STUD WHITETE Model / Part #1577965-1TERMINAL, PEEK PIDG STRATO, 14-12AWGCompatible Parts08/31/2020 04:08PM | Page 3For support call+1 800 522 6752TE Model / Part #ZPF000000000121739182-0862-22TE Model / Part #A13580-000HTCM-SCE-TP-1/4-4H-4TE Model / Part #DTS20F15-19PN RECP ASSYTE Model / Part #576783HEAVY HD HT, STRATO #12TE Model / Part #724659-1EXT TOOL FOR POSITIVE .187TE Model / Part #576781HEAVY HD HT, STRATO #16TE Model / Part #1577619-1TERMINAL RT PIDG PEEK STRATO 24-22 AWGTE Model / Part #1577623-1TERMINAL, PEEK PIDG STRATO, 20AWGTE Model / Part #1577622-1TERMINAL, PEEK PIDG STRATO, 20AWGTE Model / Part #576780HEAVY HDD HT, STRATO #18TE Model / Part #50841TERMINAL,PIDG PTFE R 14 1/4TE Model / Part #1577643-1TERMINAL, PEEK PIDG STRATO, 14-12AWGTE Model / Part #1577642-1TERMINAL RT PIDG PEEK STRATO 14-12 AWGTE Model / Part #15287614-12 PIDG R/T NYLON NO 4WHITETE Model / Part #152869TERMINAL RING TONGUE PIDG 14-12 3/8 STUDCustomers Also BoughtDocumentsDatasheets & Catalog PagesDatasheets & Catalog PagesCERTI-CRIMPII-Premium-August-1-1773864-7EnglishCrimp Term Whitepaper-Use the Right Tool 1-1773953-1EnglishCRIMPING WHERE FORM MEETS FUNCTIONEnglishBottoming DiesEnglishInstruction SheetsInstruction Sheet (U.S.)EnglishInstruction Sheet (U.S.)English08/31/2020 04:08PM | Page 4 For support call+1 800 522 6752。
L E I C A C M1520 T H E C R Y O S T A T F O R E X C E L L E N C E I N M O H S S U R G E R YLeica CM1520 –A Great Place to WorkSuccessful Mohs surgery depends on the skill of the surgeon and the support of accurate frozen sectioning. With the Leica CM1520, your laboratory can quickly and reliably cut the frozen sections needed to establish whether the surgical margin is free of tumor cells. Thanks to its speed, quality and cost efficiency, a Leica CM1520 means short waiting time for your patients, and high confidence in your diagnosis so that you can treat more patients.EXCELLENT SPEEDPatient comfort during their surgery is greatly enhanced by minimizing the time between the first incision and final closure. Use of the Leica CM1520 greatly reduces this time because it quickly freezes tissue, facilitates rapid, precise specimen sectioning and is easily made ready for the next sample.• Rapid specimen freezing withthe dedicated freezing shelf• Ergonomic design aids high efficiency work• Fast turnaround between patients thanks to the easy-clean chamberEXCELLENT COST EFFICIENCYImprove profitability with aninstrument tailored to the needs ofthe Mohs surgeon. The CM1520 hasonly the features most important toMohs surgery and ongoing costs areeasily controlled thanks to easycleaning and reduced maintenance.• Fully encapsulated microtomeminimizes maintenance• Cryochamber is sealed with siliconerubber for easy cleaning• Design eliminates expensivefeatures you may not need EXCELLENT QUALITYYou never want to miss a cell,and you never want to excise moretissue than absolutely necessary.The Leica CM1520 aids your questfor the finest surgical proceduresby delivering the precise control thatlets skilled operators consistentlycut high-quality sections.• High-precision microtomewith stepper motor feed• Accurate specimen orientationwith zero-position centering• Choice of high-stabilityblade holders2413The ergonomic design of the CM1520 helps operators work efficiently throughout the day.• Simple, logical and easy-to-reach control buttons 1• Ergonomic housing with rounded corners and easy toreach handwheel• Spacious work and storage spaces inside and on top of the cryostat• Accessories including object plate holder 2,moving shelf3and freezing shelf cover4Ag Protect efficently reduces the propagation of Choose the Standard Blade Holder for cost effective precision.Choose the Premium Blade Holder for precision and increased safety. Safely remove the blade from the blade holder without touching it.• High stability • Easy lateral adjustment • Plastic handles prevent frost bite• High stability• Blade ejector and finger guard• Palm rest for brush technique• Easy lateral adjustment • Plastic handles prevent frost biteTECHNICAL SPECIFICATIONSMicrotomeSection thickness adjustment 2–60 µm Total specimen feed 25 mm Vertical stroke59 mmMaximum specimen size 55 x 55 mm or 50 x 80 mm Specimen orientation 8° (x, y, z-axis)Electric coarse feed Slow 600 µm/sRapid900 µm/s Refrigeration system 50 Hz/60 HzCryochamber Temperature range 0°C to –30°C (+ 3 K/– 3 K)Cooling time down to –30 °C max. 6 hrs., at 22°C ambient temperatureDefrostAutomatic hot gas defrost 1 automatic defrost cycle/24 hours,time-controlled (duration 12 min.)Quick-freeze shelfMaximum cooling– 35°C (+ 3 K/– 5 K) Number of freezing stations 10DefrostManual hot gas defrost,time-controlled (duration 12 min.)DimensionsWidth (w/o handwheel) 600 mm (23.6 in)Width (with handwheel)730 mm (28.7 in)Depth 730 mm (28.7 in)Height1140 mm (44.8 in)Weight (incl. microtome,without specimen cooling)approx. 135 kg (298 lbs)Technical Specifications subject to change without prior notice.Contact your Leica Biosystems representative today to learn more about our Core Histology solutions/CONTACT-USCopyright © 2020 by Leica Biosystems, Nussloch, Germany. All rights reserved. LEICA and the Leica Logo are registered trademarks of Leica Microsystems IR GmbH.95.11375 Rev E · 11/2020Products included are intended for in vitro diagnostic use only.Leica Biosystems is a global leader in workflow solutions and automation. As the only company to the heart of our corporate culture. Our easy-to-use and consistently reliable offerings help improve workflow efficiency and diagnostic confidence. The company is represented in over 100 countries. It has manufacturing facilities in 9 countries, sales and service organizations in 19 countries, and an international network of dealers. The company is headquartered in Nussloch, Germany. Visit for more information.of worldwide customer services. For detailed contact information on your nearest sales office or distributor please visit our website: 。
5.5Test Method B (using Loop Tack Tester)makes use of aspecimen strip five in.(125mm)in length.That is the onlylength specimen strip that fits properly in the loop tack tester.5.6If the adhesive is not already otherwise coated,these testmethods incorporate the use of a clear 2mil (0.05mm)polyester (PET)film backing for specimen e ofother backing materials changes performance of the specimento be tested.TEST METHOD A (Using a Tensile Tester)6.Apparatus6.1Tensile Tester —A constant rate of extension type.6.2Test Fixture (Fig.1or Fig.28)—To be mounted into thejaws of the tensile tester.A panel held by the test fixture allowsfor a 1in.2(25by 25mm)contact area of the pressure-sensitivearticle.Alternately,the test fixture may include a raised area that allows a 1in.2(25by 25mm)contact area of thepressure-sensitive article.6.2.1The panel or the raised area of the test fixture isstainless steel as specified in Specification A 666.6.3Apparatus for Cutting :6.3.1Die Cutter —A 1by 7in.(25by 175mm)rectangularmallet-type die cutter with mallet for sample preparation.6.3.2If a fixed dimension die is unavailable,substitute a1-in.(25-mm)steel bar with a double razor knife or otherapparatus suitable for cutting the specimen into the specifieddimensions to prepare the 1in.(25mm)wide specimen strips.6.4Absorbent Lint-Free Cleaning Material —Materials pro-duced from entirely virgin raw materials and containing lessthan 0.25%by weight of solvent-leechable materials.6.5Masking Tape —1in.(25mm)wide.6.62mil (0.05mm)PET Film—To be used as a supportmedium in evaluating unsupported adhesives such as transfertapes,laminating adhesives,or other free-film adhesives.6.7Reagents —Appropriate reagents include acetone,diac-etone alcohol,n-heptane and toluene,reagent or analyticalgrade,or an ethanol cleaner for water-based adhesives.7.Sample Preparation7.1Cut sample into 1by 7in.(25by 175mm)specimenstrips in the machine direction (when known)of the pressure-sensitive e of strips of other lengths may change results.Cut at least three specimen strips for each adhesive to be tested.N OTE 1—If transfer or unsupported adhesives are to be tested,these are to be laminated to 2mil (0.05mm)PET film,used as an adhesive support,prior to cutting the samples into the 1by 7in.(25by 175mm)specimen strips.7.2Condition specimens to be tested for at least 24h in a testing room at 73.46 3.6°F (2362°C)and a relative humidity of 5065%,in accordance with Specification E 171,prior to conducting the test.8.Conditioning 8.1Testing Room —Test in a standard laboratory atmo-sphere,at 73.463.6°F (2362°C)and a relative humidity of 5065%,in accordance with Specification E 171.9.Procedure 9.1Ensure that the tensile tester is calibrated according to instructions supplied by the manufacturer.9.2Set the instrument crosshead speed at 12in.(300mm)/min.9.3Place the test fixture in the lower grip of the tensile tester.It is important that the test fixture be level and straight in the lower grip.See Fig.1,Fig.2and Fig.3.9.4Set gaps for the crosshead using the minimum and maximum gap setting on the extension cycle.Set gaps 160.05in.(2561mm)(critical)and 460.1in.(10063mm)(optional)from the bottom of the upper grips to the face of the stainless steel portion of the test fixture when the test fixture is locked in the lower grips.Set the chart recorder speed for 2in.(50mm)/min.Set the chart recorder load scale to 20lb (90N)full scale.9.5Clean the stainless steel portion of the test fixture (the area the pressure-sensitive article will contact)prior to use 8Available from Chem Instruments,510Commercial Drive,Fairfield,OH45014-7593.FIG.1Loop Tack Test Fixture1FIG.2Loop Tack Test Fixture2FIG.3Loop Tack Sample DuringTestusing reagent(s)e absorbent,lint-free cleaning e a separate piece of cleaning material each time. Repeat for a total of three washes after the testfixture appears clean.Allow2min to elapse after cleaning to ensure complete evaporation of the cleaning solvent.The user must ensure that the cleaning method used removes all residue from the test fixture.The water-break test,described in Guide D2651,may be used to verify cleanliness.9.6Completely remove the release liner(if the pressure-sensitive article normally includes a release liner)from the specimen.9.7Bend the specimen completely back on itself,being careful not to crease it.The specimen forms a tear drop shaped loop with the adhesive surface facing out.9.8Fasten the ends of the loop together,using a strip of masking tape1in.(25mm)wide(Fig.4).The masking tape covers the ends of the loop,preventing contamination of the grips of the tensile tester.9.9Insert the taped end of the specimen loop into the upper grips so that the bottom edge of the masking tape is even with the bottom edges of the grips.9.10Turn on the chart recorder.Activate the tensile tester so that the crosshead moves downward.The mid-section of the specimen loop must contact the center of the stainless steel portion of the testfixture.When the crosshead reaches its minimum position,it will immediately switch direction and move upward.When the crosshead is at its minimum position, the specimen loop will completely cover the1in.(25mm)area of the stainless steel portion of the testfixture without excessive“hang-over”of the edges.N OTE2—If the tensile tester does not have automatic cycling,cycling must be done manually.9.11Record the maximum force required to remove the specimen loop from the stainless steel portion of the testfixture as well as the mode of failure.9.11.1Record the failure mode as adhesion,cohesion or transfer.9.12Repeat procedure(9.5to9.11.1)at least two additional times for each adhesive to be tested(for a minimum of three replicates).Use a fresh specimen strip for each test.9.13When testing is complete,clean the stainless steel portion of the testfixture with approved reagent.Cover with masking tape when not in use to protect the surface from scratches.TEST METHOD B(Using a Loop Tack Tester)10.Apparatus10.1Loop Tack Tester(Fig.5)8,also used in TLMI Test L-IB1.10.2Stainless Steel Test Panels—1in.(25mm)by6in. (150mm),stainless steel as specified in Specification A666.10.3Apparatus for Cutting.10.3.1Die Cutter—A1by5in.(25by125mm)rectangular mallet-type die cutter with mallet for sample preparation. 10.3.2If afixed dimension die is unavailable,substitute a1 in.(25-mm)steel bar with a double razor knife or other apparatus suitable for cutting the specimen into the specified dimensions to prepare the1in.(25mm)wide specimen strips.10.4Absorbent Lint-Free Cleaning Material—Materials produced from entirely virgin raw materials and containing less than0.25%by weight of solvent-leechable materials.10.5Masking Tape—0.5in.(12.5mm)wide.10.62mil(0.05mm)PET Film—To be used as a support medium in evaluating unsupported adhesives such as transfer tapes,laminating adhesives,or other free-film adhesives. 10.7Reagents—Appropriate reagents include acetone,diac-etone alcohol,n-heptane and toluene,reagent or analytical grade,or an ethanol cleaner for water-based adhesives.11.Sample Preparation11.1Cut the sample into1by5in.(25by125mm) specimen strips in the machine direction(when known)of the pressure-sensitive e of strips of other lengths may change results and will notfit properly in the loop tack tester. Cut at least three specimen strips for each adhesive to be tested. N OTE3—If transfer or unsupported adhesives are to be tested,these are to be laminated to2mil(0.05mm)PETfilm,used as an adhesive support, prior to cutting the samples into the1by5in.(25by125mm)specimen strips.11.2Condition the specimens to be tested for at least24h in the testing room at73.463.6°F(2362°C)and a relative humidity of5065%,in accordance with Specification E171, FIG.4Specimen Loop-Test MethodA FIG.5Loop TackTesterprior to conducting the test.12.Conditioning12.1Testing Room —Test in a standard laboratory atmo-sphere,at 74.363.6°F (2362°C)and a relative humidity of5065%,in accordance with Specification E 171.13.Procedure13.1Ensure that the loop tack tester is leveled and con-nected to electrical power.Release the upper assembly lockinglever (Fig.5(B)).13.2Turn the power switch (Fig.5(E))to “ON.”13.3Ensure the the grip is in its upward-most position.13.4Remove the stainless steel test panel by loosening thefour clamp screws (Fig.5(F)).13.5Clean the stainless steel panel prior to use usingreagent(s)from e a separate piece of cleaning materialeach time.Repeat for a total of three washes after the test panelappears clean.Allow 2min to elapse after cleaning to ensurecomplete evaporation of the cleaning solvent.The user mustensure that the cleaning method used removes all residue fromthe test fixture.The water-break test,described in GuideD 2651,may be used to verify cleanliness.13.6Reinsert the test panel and tighten the four clampscrews.13.7Completely remove the release liner (if the pressure-sensitive article normally includes a release liner)from thespecimen.13.8Bend the specimen completely back on itself,beingcareful not to crease it.The specimen forms a tear drop shapedloop with the adhesive surface facing out (Fig.6).13.9Fasten the ends of the specimen loop together,using astrip of masking tape 0.5in.(12.5mm)wide.13.10Insert the specimen loop into the specimen jaw untilit touches the guide pins near the center of the jaw.Insertingthe specimen loop in this way ensures that it is positionedproperly.13.11Zero the force gage according to instructions providedby the manufacturer.13.12Press the “Start”button (Fig.5(I))and keep itdepressed until the upper assembly starts to move downward.The upper assembly will complete one full cycle and automati-cally shut off when the force gage again reaches its startingposition.13.12.1This cycle will first move the upper assemblydownward,bringing the specimen loop into contact with thetest surface,forming a bond.13.12.2The assembly will then move upward and the force gage measures the force required to break the bond.13.12.3The cycle will end when the assembly returns to its original starting position.13.13Record the maximum force required to remove the specimen loop from the stainless steel panel as well as the mode of failure.13.13.1Record failure mode as adhesion,cohesion or trans-fer.13.14Repeat procedure (13.13to 13.13.1)at least two additional times for each adhesive to be tested (for a minimum of three replicates).Use a fresh specimen strip for each test.13.15When testing is complete,clean the stainless steel panel with approved reagent.Cover with masking tape when not in use to protect surface from scratches.14.Calculation 14.1Calculate the average peak reading in pounds (New-tons)and the standard deviation using at least three specimens for each adhesive.15.Report 15.1Report the following:15.1.1Test Method (A or B),15.1.2Identification of the adhesive,15.1.3Reagent(s)and method used for cleaning the stain-less steel portion of the test fixture,15.1.4Conditioning time for prepared specimens,15.1.5Adhesive type and coating thickness in mils (milli-metres),15.1.6Backing material used for the adhesive,15.1.7Release liner used,if any,15.1.8Crosshead speed of the tensile tester (Test Method A only),15.1.9Temperature and humidity conditions,15.1.10Average peak reading in pounds (Newtons),15.1.11Standard deviation of peak readings,15.1.12Visual mode of failure (adhesion,cohesion or trans-fer),and 15.1.13Length of specimen strip in inches (millimetres).16.Precision and Bias 16.1An interlaboratory study of loop tack precision by Test Method A was conducted in accordance with Practice E 691.Seven laboratories reported three test results on each of four adhesive tapes.The four adhesive tapes represented different adhesive chemistries as well as different levels of loop tack.For this study,a specimen length of 8in.was used rather than the 7in.specified in the test method.Similar precision results are expected with a 7in.specimen.9Results of the repeatability study are summarized in Table 1.16.2The precision information given below was calculated for the comparison of the average of three individual test determinations as specified in Test Method A.16.3The terms repeatability limit and reproducibility limit are used as specified in Practice E 177.9A research report is available from ASTM headquarters.Request RR:D14-1006.FIG.6Specimen Loop -Test MethodB16.4Repeatability :16.4.1The repeatability of this test method was an increas-ing function of the value of the test result.See Table 1.16.5Reproducibility :16.5.1The reproducibility of this test method was anincreasing function of the value of the test result.See Table 1.16.6For Test Method B,three laboratories reported resultson each of four adhesive tapes.Although the tapes were sent toeight laboratories,only three of them had access to a commer-cial loop tack tester.The commercial loop tack tester uses a 5in.test specimen.With so few test results,the standard deviations are probably underestimated.Repeatability and reproducibility standard deviation were determined accordance with Practice E 691.16.7Repeatability :16.7.1The repeatability of this test method was an increas-ing function of the value of the test result.See Table 2.16.8Reproducibility :16.8.1The reproducibility of this test method was an increasing function of the value of the test result.See Table 2.17.Keywords 17.1adhesive;loop tack;pressure-sensitive article;tack The American Society for Testing and Materials takes no position respecting the validity of any patent rights asserted in connection with any item mentioned in this ers of this standard are expressly advised that determination of the validity of any such patent rights,and the risk of infringement of such rights,are entirely their own responsibility.This standard is subject to revision at any time by the responsible technical committee and must be reviewed every five years and if not revised,either reapproved or withdrawn.Your comments are invited either for revision of this standard or for additional standards and should be addressed to ASTM Headquarters.Your comments will receive careful consideration at a meeting of the responsible technical committee,which you may attend.If you feel that your comments have not received a fair hearing you should make your views known to the ASTM Committee on Standards,100Barr Harbor Drive,West Conshohocken,PA 19428.TABLE 1Loop Tack Precision Data (Test Method A)MaterialAverage (lb/in 2)Repeatability Standard Deviation Reproducibility Standard Deviation Repeatability Limit Reproducibility Limit A1.13270.12990.32250.36370.9030B1.89880.16220.27100.45410.7587C2.10050.30270.48930.8477 1.3699D 5.77300.33940.69080.9502 1.9343TABLE 2Loop Tack Precision Data (Test Method B)Material Average (lb/in 2)Repeatability Standard Deviation Reproducibility Standard Deviation A 1.1540.06900.1880B 2.0440.16600.3167C2.2560.31160.5681D 6.5480.27410.6283。
About AI-Tek ® TachometersNot all tachometers are the same, and this is certainly true of the AI-Tek Instruments tachometry line.Designed with severe industrial environments in mind, these units will provide reliable around-the-clock operation for years under adverse conditions.AI-Tek Instruments is a leader in manufacturing this type of instrument.Our prices reflect the design, quality, ruggedness and engineering of the equipment. What your eally get with AI-Tek Instruments is a superb price performance ratio. It may not initially be the least expensive equipment available; but, in the long run, the value of this equipment is that it will outperform and outlast others.Introduction of the New Generation Tachometer LineThe new generation TACHPAK and TACHTROL series tachometers have been designed with all of the functions and durability embodied in the previous tachometer series as well as improvements to e xtend performance, accuracy and function. With the exception of the Tachtrol 20, both TACHPAK and TACHTROL now share a c ommon processing platform. This commonality allows both to perform identical tachometry f unctions, streamlines programming and minimizes thel earning curve. The main physical difference between the two is the characteristic integrated display function found in all TACHTROL series tachometers.Common Specifications:Temperature -10°C to +55°C operating; -40°C to +80°C storageThermal Cycle 50 cycles: -40°C to +80°C; 200 cycles: -10°C to +55°C Humidity 90% RH non-condensing per IEC 654-1, IEC 68-2-3VibrationMIL-STD-810C Environmental Test Methods, method 514.2, procedure VIII, figure 514.2-6, curve V; 1.5g’s 10-2000 Hz, 5.5 hrs./axis, 3 axis IEC 60068-2-6, 10-150Hz, 2g, 10 sweep cycles / axis, 3 axisShockMIL-STD-810C Environmental T est Methods, method 516.2, procedure I and figures 516.2-2, for ground equipment; 30g’s half sine, 11ms. 3 axis, 18 total IEC 60068-2-27; 50g half sine, 11ms, 3 axis, 18 totalEMCCE CompliantEN 61326:1997 Class A radiated and conducted emissions with amendments A1-A3EN 61326:1997 with amendments A1-A3, ImmunityEN 61000-4-2: 1998 Electrostatic Discharge: ±4kV contact, ±8kV air EN 61000-4-3: 1998 Radiated Immunity: 10V/mEN 61000-4-4: 1995 Electrical Fast Transients/Burst: ±2kV AC, ±1kV I/O > 3mEN 61000-4-5: 1995 Surges: ±1kV differential mode, ±2kV common mode, ±1kV lineto ground I/O > 30mEN 61000-4-6: 1996 Conducted Immunity: 3VEN 61000-4-11: 1994 Supply Dips and VAriations: 100%, 0.5 cycles each polarity RoHS RoHS compliant per European Directive 2002/95/ECSupport Documents On Website Include:TACHLINK , Manual, Tach Training VideoTach TACHPAK 10 & 30and TACHTROL 10 & 30are shipped in a single cartonPackage containing one instrument, TACHLINK , a manual on CD ROM, and a USB cable.Contents:TACHTROL plus is shipped in a single carton containing one instrument and ad isplay cable with RJ-11 terminations. TACHTROL 10 & 30and TACHTROL plus Explosion Proof and NEMA 4X are shipped in a single carton containing onei nstrument and accessories as described above, one infrared remote and one DIN rail mounting kit. TACHPAK 10 & 30 Explosion Proof and NEMA 4X are shipped in a single carton containing one rated enclosure and one i nstrument and accessories as described above.It is the customer’s responsibility to determine whether the product is proper for customer’s use and application.A I -T e k I n s t r u m e n t s ,C h e s h i r e ,C T U S ASpecifications (Continued): ElectricalAll measurements taken at 25°C unless otherwise specified.Input PowerPower consumption3.5 watts, typical for tachometer onlyAdd 0.5 watts per remote displayAdd 2.0 watts for 12V out9.5 watts max.DC Voltage12-30 volts. Reverse polarity protected. Available on terminal blocks and din rail in parallel (TACHPAK only). AC Voltage80-264 Vac 50-60 HzPower SharingIf DC input and AC input are both supplied, DC will be loaded above approximately 15 volts. Below 15Vdc input, AC will be loaded.Output PowerRegulated to 12 volts @ 150mA when input voltage is 13.6 volts and above. Below 13.6 volts, output voltage ≈ input voltage –1.5V.Input Signal CharacteristicsChannel A & BFrequencyUpper Limit: 50 kHz absolute maximum(20µsec period); 40kHz typicalLower Limit: 0.005 Hz absolute minimum(200 sec. period); .05 Hz typical Minimum Pulse Width: 0.5 µsec.Wave shape: Square or SinusoidalInput Impedance12 kΩ typicalInput SensitivityUpper and Lower Limit: +/-30 volts max. (AC or DC). Logic 0 and Logic 1 thresholds are user adjustable from 200mV to +28 volts in approx. 20mV steps +/-3%. 200mV peak absolute min. imput sensitivity. Common Mode Rejection Ratio>40 db @1kHz typicalElectrical IsolationChannel A, B and Direction share common ground Channel A, B or Direction to output: 500 Vrms Channel A, B or Direction to ground: 500 Vrms Verify and ResetFrequencyEssentially DC, Minimum Pulse Width: 250 µsec.Input Impedance10mA current regulatedInput Sensitivity3.5 volts min. pulse to groundCommon Mode Rejection Ratio>40 db @ DC typicalElectrical IsolationSignal to signal 500 VrmsSignal to ground 500 VrmsDirectionFrequencyEssentially DCMinimum Pulse Width: 0.5 µsec.Input Impedance12 kΩ typicalInput SensitivityUpper and Lower Limit: +/-30 volts max. (AC or DC).Logic 0 and Logic 1 thresholds are user adjustablefrom 0 to 28 volts in approx. 20mV steps +/-3%.Common Mode Rejection Ratio>40 db @1kHz typicalElectrical IsolationChannel A, B and Direction share common groundDirection to output: 500 VrmsDirection to ground: 500 VrmsOutput CharacteristicsRelays (Mechanical)PhysicalForm CContact Rating10A @125/250 Vac, 6A @ 277 Vac, 5A @ 30Vdc,0.5A @ 100Vdc2500 VAResponse Time (operate and release)Input to output 16.5 msec max.(10 msec relay only)Electrical Isolation1500 Vrms, 1 minute coil to contactsSwitchpoint AccuracyInternal instrument accuracy to alarmsetpoint: ±.005%AI-TekInstruments,Cheshire,CTUSARelays (Solid State)Physical Form AContact Rating400mA @ 60V (AC or DC)On resistance: 2Ω maxResponse Time (operate and release)Operate: 2 ms max, 0.8 ms typical Release: 0.5 ms max, 0.1 ms typical Electrical Isolation 500 Vrms, 1 minuteSwitchpoint AccuracyInternal instrument accuracy to alarm setpoint: ±.005%Analog OutputRanges0 to 20mA, 4 to 20mA, -20 to 0 to +20mA;user selectableAccuracyInternal instrument accuracy: ±.005%; plus ±.05% of full scale range at room temp with 400 ohm load;±0.1% over temp range and load range. Unit is factory calibrated. Can be re-calibrated using TACHLINK.ResolutionStep size: 610 nanoamps per lsb. 16 bit D/A Linearity±0.02% typical Loop Impedance 100-1000 ΩResponse TimeInput to output 6.55 msec+ 1 msec settle at 1k Ω (worst case) to .1% of final valueElectrical Isolation 500 Vrms continuousDisplay (applies to TT & TTplus)ResolutionBlack and White graphics display. 64x128 Pixels.Accuracy±.05% of full scaleCommunication ProtocolRS485: 19.2kbaud, 8-n-1 protocol, Half duplex,Tachometer is bus masterNetwork• Multiplex up to seven displays plus one integrated display. Displays are addressable.• With all seven displays at the end of one RJ11 6-4cable, max length would be 125 ft (38m), limited by voltage drop in cable. Cable must be 1:1 type (not flipped), described as RJ11 6-4 reversed cable. For longer distances the RJ type cable should not be used. With #18 wire max run to a single display is 1000 ft (305m).• Response time: 1 second update to all displays, PC and RS485Electrical Isolation500Vrms to ground continuousUtility RS485Full access to TACHLINK, single drop only Communication ProtocolRS485: 19.2kbaud, 8-n-1 protocol, Half duplex,Tachometer is bus master Maximum Transmission Distance 8000 ft (2400m)Electrical Isolation500Vrms to ground continuous USBFull access to TACHLINK,Version 1.1 / 2.0 compatible Processing PlatformPIC18F series micro controller Clock Speed10MHz, ±50 ppm at room tempAcquisition TimeBasic instrument acquisition time / period 6.55 ms AccuracyBasic instrument accuracy ±.005% (50 ppm)ResolutionBasic instrument resolution: ±.025% or betterA I -T e k I n s t r u m e n t s ,C h e s h i r e ,C T U S ATACHLINK• TACHLINK is a Windows-based program developed to simplify programming, communicationand monitoring with the new generation of AI-TEK tachometers via USB2.0 or RS485.• Programming is much faster and simpler with TACHLINK.• T achometer configuration databases can be stored, backed up and retrieved easily. A storedd atabase can be used to program multiple tachometers and can be e-mailed to remote locations.• The TACHLINK graphical user interface allows any PC to be used as a remote display.• Analong output calibration is available only through TACHLINK and allows the customer to p erform and verify calibration status.• Plotting function is available only through TACHLINK and allows the customer to monitor a process over time while montioring speed and relay status. Output is available to be viewed real-time or can be captured and imported into a spreadsheet format for future analysis.A I -T e k I n s t r u m e n t s ,C h e s h i r e ,C T U S ATACHTROL 30 Key Features (T77630):• Wide range of AC or DC power (12-30 Vdc, 80-264Vac 50-60Hz)• Greatly improved instrument accuracy, processing speed and response time.• Frequency, period or counter modes.• User-defined inputs for logic level, averaging, alarm set points and hysteresis,• Signal normalization and math functions allow mathematical manipulation of input signals.R esults can be displayed along with user-defined units.• Accepts sinusoidal and square wave inputs as found in variable reluctance and digital output speed sensors.• Accepts bi-directional sensor inputs and will decode quadrature or direction signal logic • 2 solid state relays (fast response time) and 2 mechanical relays (high power)• Analog output: 0-20mA, 4-20mA, -20-0-(+) 20mA (can be used with bi-directional sensor)• Two programming methods: Front panel on display or USB2.0 connectivity to PC / Windows-based TACHLINK .• Utility RS485communication allows full TACHLINK function over longer distances (up to 8000 ft) • Drives up to 7 remote displays (TACHTROL plus ). A single display can be up to 1000 ft away with a simple RJ11(phone jack) connection. Longer runs, cable type and number of displays will affect distance.• Security mode protects unauthorized access for programming or alarm resets (through display or TACHLINK )• Environmentally hardened for temperature, vibration and shock. EMC / CE compliant to current BS / EN directives.• Has integrated display and will mount in same panel opening as TACHTROL 3• Display capabilities include two independent output channels for speed, count period or equation results, Alarm status / security, Mode, User defined units for each channel, 128x64 LCD graphics display with backlight.• Designed and manufactured compliant with RoHS.TACHTROL 10 Key Features (T77610):• Same as TACHTROL 30but excludes solid state relays, analog output and utility RS485It is the customer’s responsibility to determine whether the product is proper forcustomer’s use and application.TACHTROL ®10 & 30Dual InputDigital TachometerPart Number Series T77610 &T77630RoHSA I -T e k I n s t r u m e n t s ,C h e s h i r e ,C T U S AProgramming FeaturesProgramming has been greatly simplified and can be accomplished by 2 different methods. Many configurable attributes have been added to improve flexibility and function.• Display front panel: TACHTROL 10 and 30can be programmed through the integratedd isplay/membrane panel. Programming is accomplished by navigating through a series of nested menus. In the case of tachometer instruments embedded in explosion proof or NEMA 4X enclosures, remote access solves the problem of programming by making use of an IR link to allow full front panel control via a hand-held remote.• PC / Windows-based TACHLINK : Custom software allows the user to p rogram all configurable attributes of TACHTROL by PC via a USB2.0or RS485connection. In addition, the PC can be used to display data, perform security functions, d iagnostics, analog output calibration and real-time data logging; all available through the TACHLINK .Applications:• Fast response overspeed shutdown • 2 Channel Speed/Draw Monior • Bi-directional Tachometer • Reverse Rotation Alarm • Low Speed Tachometer • Clutch Slip Alarm • Winder Control• Ahead/Astern Marine Tachometer• Expanded analog Scale Speed Transmitter• Flow Rate Monitor • Process Time Monitor • Time per Event Monitor • Autoranging Tachometer • Computer Signal Conditioner • Averaging Tachometer• Line Frequency Monitor 60.00 Hz/400.0 Hz • RS485 Speed TransmitterOrdering Input Power Enclosure Net Weight P/N(lbs.)T77610-1080-264 Vac/12-30 Vdc Std. Panel Mount 0.8T77610-4080-264 Vac/12-30 Vdc NEMA 4X3.9T77610-7080-264 Vac/12-30 Vdc Explosion Proof 42.0T77630-1080-264 Vac/12-30 Vdc Std. Panel Mount 0.9T77630-4080-264 Vac/12-30 Vdc NEMA-4X4.0T77630-7080-264 Vac/12-30 VdcExplosion Proof42.0A I -T e k I n s t r u m e n t s ,C h e s h i r e ,C T U S APANEL MOUNT, STANDARD ENCLOSUREA I -T e k I n s t r u m e n t s ,C h e s h i r e ,C T U S AA I -T e k I n s t r u m e n t s ,C h e s h i r e ,C T U S ATACHTROL Enclosure Options T77610-40T77630-40NEMA 4XA I -T e k I n s t r u m e n t s ,C h e s h i r e ,C T U S ATACHTROL Enclosure OptionsT77610-70 / T77630-70EXPLOSION PROOFUL/CSA for Hazardous LocationsClass I, Groups B, C & D Class II, Groups E, F & GClass IIIAlso Class I, Zone 1, Groups IIB + H 2, IIAATEX 0102 EX II 2 GFor use in Zone 1 Groups IIA, IIB & IIB+H2 T6 or T5,IP66 hazardous locations Certifications Inside Enclosure (Consult Factory for Latest Update)A I -T e k I n s t r u m e n t s ,C h e s h i r e ,C T U S A。
• Ideal for hard-to-weld dissimilar combinations• Good for corrosion resistant cladding on bearing surfaces • Excellent comparative mechanical properties®TigTectic 1851Copper-Base Filler Metal for Welding Aluminum Bronzes and for Dissimilar MetalJoining of Copper Alloys to Steels and Cast IronsDESCRIPTION:TigTectic 1851 is particularly resistant to cracking when used for dissimilar metal joining. Weld deposits contain elements that inhibit inter-granular stress corrosion cracking when used to join and surface aluminum bronze castings.APPLICATIONS:• Aluminum bronze pump housings • Manganese bronze impellers • Ships propellers • Turbine runners • Press rams• Joining cast iron to steel • Tin plate mill rolls • Hydraulic pistonsINSTRUCTIONS FOR USE:Preparation: Remove all contaminants, particularly oil and grease. Lightly grind surfaces to remove superfi cial oxides. Prepare cracks to have a 60-75° V-groove. A root opening of 1/8- in. is recommended. If necessary, preheat to remove moisture.Technique: Use a properly ground thoriated or lanthinated tungsten with the appropriate gas cup size for suffi cient puddle coverage. Deposit 1851 with stringer beads only. Maintain shielding gas fl ow until solidifi cation is complete.Note: High frequency AC recommended for application thin-ner than 0.040 or where additional weld puddle cleaning is needed.Note: Make sure that the inter-pass temperature does not exceed 300°F.Post-welding: Slow cool out of the way of drafts.HEALTH AND SAFETY:Observe normal welding practices, respiratory protection and proper air fl ow pattern advised. For general welding practices, see AWS publications Z49.1 “Safety in Welding and Cutting and Allied Process”. Welding is a completely safe process when performed in accordance with proper safety measures. Become familiar with local safety regulations before beginning weld-ing operations. DO NOT operate welding equipment or use welding materials before you have thoroughly read the proper instruction manual(s).Please refer to the Eutectic internet site for Material Safety Data Sheet (MSDS) information.DISREGARDING THESE INSTRUCTIONS, AND/OR THE INSTRUCTIONS OF WELDING EQUIPMENT OR MATERIAL MANUALS, MAY BE HAZARDOUS TO YOUR HEALTH.TECHNICAL DATA:• Typical Tensile Strength 90,000 psi (620 N/mm 2)• Typical Yield strength 38,000 psi (262 N/mm 2)• Typical Hardness (BNH) 150• Typical work hardened hardness: (BNH) 200• Current & Polarity: DCEN (-)• Shielding Gas: Welding grade argonWELD PARAMETERS:Statement of Liability: Due to variations inherent in speci fi c applications, the technical information contained herein, including any information as to suggested product applications or results, is presented without representation or warranty, expressed or implied. Without limitation, there are no warranties of merchantability or of fi tness for a particular purpose. Each process and application must be fully evaluated by the user in all respects, including suitability, compliance with applicable law and non-infringement of the rights of others, and Eutectic Corporation and its af fi liates shall have no liability in respect thereof.YOUR RESOURCE FOR PROTECTION, REPAIR AND JOINING SOLUTIONSEutectic CorporationN94 W14355 Garwin Mace Drive Menomonee Falls, WI 53051 USA P 800-558-8524 • F Do21 3-15 © 2008, Eutectic Corporation, ® Reg. T.M., Printed in the U.S.A.Eutectic Services 12300 Carmen Avenue Milwaukee, WI 53225 USAP 800-558-8524 • F 262-255-5542。
PRODUCT BROCHUREPRODUCT BROCHUREINTERNAL COMBUSTION ENGINE PNEUMATIC TIRE | 4,000-7,000 LBH40-70AA SERIESDISTINCTLY HYSTER, BUILT FOR YOU.Starting with the A Series, Hyster has revolutionized the manufacturing process to deliver the tough truck you expect, built to meet the needs of your application. The Hyster A Series isdesigned using A+ Logic, with a fully integrated set of scalable and adjustable features that allows you to easily fine-tune the right solution to fit your application.We know that no two customers face identical challenges. So, instead of providing you witha truck we built, we build the truck you need. It’s just logical.2Universal issues such as productivity, cost pressures and labor shortages are growing. The right materials handling solutions can help mitigate these pain points.Start with a singular base configuration, then add only what you need to best suit your operational needs — no more, no less. By designing a completely unique forklift, you get the comfort and performance you desire, plus the cost benefit of only paying for what your operators and operation need in order to perform optimally.SAFETY FEATURES THAT BOOST PRODUCTIVITY Operator assistance features are designed to support the behavior and awareness of both operators and pedestrians on or around the lift truck. This, combined with the Hyster® Dynamic Stability System, means more operator confidenceand productivity for your operation.OPERATOR-CENTRIC DESIGNYou have to experience it to believeit. Every detail of the operatorcompartment has been preciselyengineered to provide optimal comfortand excellent visibility to help youroperators stay comfortable andproductive all shift long.LOW TOTAL COSTOF OWNERSHIPWith every H40-70A forklift, you getdurable components and extendedpreventive maintenance serviceintervals, resulting in reducedmaintenance costs.34EMPOWER YOUR WORKFORCEMaintaining a strict focus on lift truck best practices can be a challenge, but with so muchriding on lift truck operator performance, building and supporting safe, effective habits through proper, comprehensive training is critical. The A Series goes a step further, with smart features and technology that offers alerts and automated assistance to operators in real time.The Dynamic Stability System (DSS) actively monitors five integrated non-maintenance sensors during operation to provide information to the Vehicle System Manager (VSM). The VSM will engage DSS by providing audible and visible alerts from the operator display and limiting truck performance. If telemetry is available, the system will send an alert to the telemetry portal.Speed SensorDynamically measures truck speedTilt Angle SensorDynamically measures mast angleLoad SensorDynamically measures hydraulic pressure to determine loadMeasures lift height to determine operational limitsSteer Angle SensorDynamically measures steer angleMast Height Sensor5OPERATOR ASSISTANCE SYSTEMSA suite of application-specific features designed to support the behavior and awareness of both operators and pedestrians to promote safe practices and help prevent facility and product damage.1DYNAMIC STABILITY SYSTEM (DSS)A completely maintenance-free system that sends audible, visible and performance alerts to the operator to help promote safe operating practices. This innovative technology, made up of 4 sub-systems, limits truck performance in certain conditions to help minimize forward and sideways tip-overs.1Spotlights and Pedestrian Awareness Lights a highly configurable suite of light options, mounting positions, colors and control methods deliver a best-fit solution to help support application-specific visibility and awareness needs in low light or congested areas.Shelf Height Selector is an option that allows the operator to select a pre-set lift height. With one touch of the hydraulic controls, the truck automatically stops lifting at the pre-set height, ideal for applications with high lift heights and frequent loading into racks.Rear-Facing Camera with the corresponding LCD rear view display may be helpful in certain applications in monitoring the rearward area of the truck while maneuvering or changing directions.Slim, LED, mast mounted work lights can be added for applications requiring additional lighting than provided by work lights alone.If equipped with a swing-out or swing-out drop-down tank bracket , an LPG tank bracket interlock feature will alert the operator if the tank bracket is not fully closed and will not allow operation.Lateral Stability System reduces truck leans in turns, helping to improve lateral stability. The innovative steer axle design allows forsuperior travel over uneven surfaces. The system is 100% maintenance free, with no controller, sensors or wiring.High-Lift Traction Control limits truck speed when the carriage is raised above the height threshold. Operator will receive a visual indicator on the truck display and an audible alert.High-Lift Tilt Control limits tilt speed and forward tilt range when the carriage is raised above the height threshold while carrying a load. Operator will receive a visual indicator on the truck display and an audible alert.Corner Control dynamically limits speed when driving around corners, based on how tightly the truck is turning. Operator will receive a visual indicator on the truck display and an audible alert.1Properly trained operators of high-lift counterbalanced lift trucks should always travel (with or without load) with the carriage lowered. Operators should exercise caution when tilting loads at height, and during acceleration (forward or backward) when removing or depositing loads positioned high on racks.DESIGNED FOR THE OPERATORDon’t let the physical demands facing lift truck operators undermine labor productivity orretention. The H40-70A models are designed for ergonomics and convenience, making iteasier for operators to stay comfortable during operation.67LARGE FLOOR SPACEAmple foot space isespecially beneficial when operators must spend long periods on the truck, allowing them to move their feet around and stay comfortable.THIS WILL BE YOUR GO-TO FORKLIFTOPTIMIZED STEPFeatures a comfortable and secure tread and wide opening angles. Thanks to a lower seat position and optimized step height, the step is closer to the seat, which means operators can climb straight from the step into the seat. The large length and width of the step provides a greater foothold for the operator.DYNAMIC SEAT ADJUSTMENTProvides up to 25% more forward & backward seat adjustability than the leading competitor 2 to give the operator more freedom of movement during operation.SPACIOUSCOMPARTMENTGreater head clearance than the competition 2 provides more space for freedom of movement during operation.FLIP-UP ARMRESTSIncluded with optional suspension seats, the flip-up armrests offerunobstructed access when getting in and out of the truck, then provides a comfortable and secure armrest when operatingmanual hydraulic levers.CONTOURED HOODProvides space for the operator to swing their leg naturally when getting in and offers additional room to reach the step when getting out.FOOT-ACTIVATED, HAND-RELEASED PARKING BRAKEDesigned to tuck out of the way when applied, enabling unobstructed entry and exit. Requires less effort than a hand-applied brake and minimizes operator leanand strain on the back.CONVENIENT DISPLAYA standard, full-color touch-screen display offers quick, easy access to vital truck information, such as time, truck speed, operator alerts and fuel level. The display also allows adjustment ofthe inch brakes.EXCEPTIONAL VISIBILITYThe ability to scan your surroundingsquickly is vital. Forklifts, robotics,pedestrians and other vehicles areconstantly moving and traveling.Visibility is key to help avoid incidentsand damage.Superior visibility and smart operatorassistance technology help operatorswork with confidence and efficiency.89High-strength laminated glass roof provides an unobstructed upward view while pickingand placing loads at height. Standard withcab, optional on other configurations.FORWARD VISIBILITYThe wide viewing window provides excellent visibility through the mast,enhanced visibility of forks and load when picking at height, and excellent visibility when traveling forward.damage. Hyster has proudly put this feature on a sit-down counterbalance truck to help in high lift or low light applications.EXPECT HIGH PERFORMANCE AND PRODUCTIVITY10EXTENDED PREVENTIVE MAINTENANCE INTERVALSThe Yanmar industrial engine is designed for continuous, heavy use and frequent start/stop events. This engine utilizes an auto-tensioned belt for the front end accessory drive, helping to create increased service intervals. In addition, the Yanmarengine is equipped with a robust gear train, eliminating problems due to timing belt failure.TAPERED ROLLER BEARINGSTapered roller bearings in the steer axle are more durable against shock and require less frequent greasingthan needle bearings.DEPENDABLE SEALS AND CONNECTORSO-ring face seal hydraulic fittings reduce leaks while Deutsch-style, double-sealed electrical connectors reduce contamination from moistureand dirt.STANDARD EQUIPMENTKEEP COSTS UNDER CONTROLIncreasing demands, harsh duty cycles and challengingenvironments can threaten uptime, so you need equipment proven to stand up and deliver, shift after shift. The H40-70A series protects your bottom line with features engineered to simplify regular service and help prevent unplanned downtime.11OPTIONAL EQUIPMENTON-DEMAND COOLING WITH REVERSING FANCooling fan automatically reverses direction at a regular interval to help clear out debrisfrom the radiator, allowing the truck to stay cool while minimizing the frequency with whichoperators need to remove debris themselves. Operators can push a button any time toreverse the fan. The fan runs independently of the engine, providing the right amount ofcooling for the job, whether the truck is at top speed or sitting still.ON-DEMAND HYDRAULIC SYSTEMExtend oil life with a load-sensing variable displacement pump that produces oil flow onlywhen needed. The on-demand pump reduces heat in the hydraulic system, helping toprevent pump failure, leaks and extending mast hydraulic hose life.WET DISC BRAKESOil-cooled wet disc brakes, designed to last the life of the truck, are housed in a sealedunit and protected from the environment, which helps to reduce damage, virtuallyeliminating brake maintenance. Includes a push-button park brake that automaticallyengages when the operator leaves the seat or shuts down the truck.ELECTRONIC TRANSMISSIONAdvanced Duramatch™ transmission designed around an aluminum housing providesproven durability against heat, shock and vibration. Includes controlled power reversal,auto deceleration, accelerator pedal inching and hill hold, all of which help to reducetire and brake wear. Easy access to components helps to simplify service and minimizedowntime.。
G E N E R A LAN ESSENTIAL GUIDE OF MITUTOYO PRECISION TOOLS AND INSTRUMENTSS T Y L I F O R C M MContentsPageItemDescription4Materials for bases and stylus stems Material data and characteristics5Technical data 7 - 9Stylus kits M2 / M3Styli kits10 - 11Stylus kits M3 / M413Stylus: tungsten carbideStyli M214Stylus: tungsten carbide/ceramic 15 Stylus: steel 16Cylinder stylus 17Stylus for holder 17Stylus holder 18Adaptor 18 - 194-way stylus holder 19 - 205-way stylus holder 19 - 20Stylus for multi-way stylus 20Tip stylus 21Disk stylus22Knuckle/swivel joint 22Extension24 - 25Stylus: tungsten carbide Styli M325Stylus: ceramic 25 - 26Stylus: carbon fiber 26Stylus: steel 27Cylinder stylus 27 - 285-way stylus holder 28Adaptor 28Knuckle joint 28Disk stylus29Multi-way stylus29Stylus for multi-way stylus 30Extension 32Stylus: steel Styli M432Stylus: ceramic 33Extension335-way stylus holder 33 - 34Adaptor 35Pin spanner Accessories35Master ball35Base plate for calibration sphereMaterials used for bases and styli stemsTungsten carbideBend-resistant styli stems made from tungsten carbide are ideal for virtually all standard applications in the measuring lab with its stable ambient temperature. A durable material that has provenits worth.Aluminum alloyLightweight and stable, and therefore frequently used for probe extensions, styli stems or extensions made of aluminum alloy per-form best in measuring labs with stable temperatures,and accordingly, the lowest possible temperature gradients.SteelThe primary material of choice for high-strength precision styli enables very accurate measuring tasks. Its superb material strength makes steel an excellent choice of material for manufacturing styli or reference probe elements.CeramicVery lightweight and extremely stiff, ceramic is an ideal material, particularly for long stems. A low tendency to expand in higher temperatures makes ceramic styli suitable for use in productionsurroundings.Carbon fiberThe highest-quality material with an expansion coefficient of virtu-ally zero at ambient temperatures of up to 113 degrees Fahrenheit (45 degrees Celsius). Carbon fiber is very lightweight and extremelystiff, making it particularly suitable for the manufacture of long styli.Which stylus is best suited, and under which conditions, for use with your measuring equipment and specific measuring task?With more than 30 years of experience in developing and manufacturing styli, Mitutoyo experts know which material and combination enable you to achieve your goals—reliably and accurately.Styli made by MitutoyoRubyAs the hardest of all probe element materials, ruby is the perfect all-around material when it comes to manufacturing spherical contact points that must be highly resistant to wear. Contact points made of ruby have been used for most standard applications for decades. The low specific density of ruby enables the mass of the stylus tip to be kept as small as possible, effectively eliminating false triggers causedby mass inertia when the CMM moves or vibrates.Zirconium oxideBecause of the specific surface properties of contact points made of zirconium oxide - a ceramic compound – they are acknowledged as the best choice for aggressive scanning of abrasive surfaces, such as workpieces made of cast iron. Zirconium oxide has virtually the samehardness and wear-resistant properties as ruby.Silicon nitrideSilicon nitride is extremely hard and wear-resistant, with the least surface roughness of all ball materials. Specific advantage: because silicon nitride has a higher resis-tance to soft metal alloy material (such as brass, aluminum), materials adhere to the surface of the stylus less than other ball materials such as ruby or zirconium oxide.Materials used for contact pointsTitaniumTitanium is remarkably stiff, yet has a relatively low density. Probe components made of titanium are extremely rigid and stable, yet sur-prisingly lightweight. Mitutoyo uses the material primarily for bases,connecting pieces and extensions for measuring styli.Carbon-fiber tubeThermal expansion coefficient range is virtually undetectable at tem-peratures between 59 and 104 degrees Fahrenheit (15 to 40 degrees Celsius) Mitutoyo uses carbon-fiber tube for styli with outstanding quality, sophisticated styli configurations and probe extensions.Technical dataMaterial characteristicsDiameter and Form DeviationsCharacteristics of ball materialsVDws Ra max.tDwsDifference between the largest and smallest of the single diameters of ball Surface roughnessDeviation from the perfect spherical formSTYLI KITS STYLI KITSStyli Kit M2 AdditionKits M2 / M3Styli Kit M2StarterStyli Kit M2Basic 1Unit: mmStyli Kit M2Basic 2Styli Kit M2ExpansionSTYLI KITS STYLI KITSUnit: mmKits M2 / M3Styli Kit M2Unit: mmStyli Kit M3CRP 1Styli Kit M3CRP 2Styli Kit M3CRP 3Styli Kit M3Linear HeightSTYLI KITS STYLI KITSUnit: mmStyli Kits M3 / M4Styli Kit M3 StarterStyli Kit M4Unit: mmComponents for measuring heads WITH M2 THREAD TP20 TP200 MH20i TP2 WITH M2 THREADStyli M2Stylus: tungstencarbidebase: stainless steelstem: tungsten carbideball: rubyUnit: mm Mass: gStylus: tungsten carbidebase: stainless steel stem: tungsten carbide ball: rubySTYLI M2STYLI M2Stylus: ceramicbase: stainless steel stem: ceramicball: rubyUnit: mm Mass: gStyli M2Stylus: steelbase: stainless steel ball: rubyStylus: steelbase: stainless steelball: rubyUnit: mm Mass: gSTYLI M2STYLI M2Cylinder stylus: steelstainless steelCylinder stylus: rubybase: stainless steel stem: tungsten carbide tip: rubyCylinder stylus: rubybase: stainless steel tip: rubyCylinder stylus:tungsten carbidebase: stainless steeltip: tungsten carbideUnit: mm Mass: gStyli M2Stylus for holderstem: tungsten carbide ball: rubyStylus for holderstem: tungsten carbide ball: rubyStylus holderstainless steelUnit: mm Mass: gAdaptorstainless steel4-way stylus holderstainless steel, rotatable5-way stylus holderstainless steel, fixed5-way stylus holderstainless steel, rotatableSTYLI M2STYLI M2Unit: mm Mass: gStyli M25-way stylus holder,largestainless steel, rotatable5-way stylus holder,smallstainless steel, fixed4-way stylusbase: stainless steel stem: tungsten carbide ball: ruby5-way stylusbase: stainless steel stem: tungsten carbide stainless steelball: rubyUnit: mm Mass: gSTYLI M2STYLI M2Stylus for 5-way stylusbase: stainless steel stem: tungsten carbide ball: rubyTip stylus: steelsteel, hardenedTip stylus: steelsteel, hardenedTip stylus: tungsten carbidebase: stainless steelstem: tungsten carbideUnit: mm Mass: gKnuckle jointstainless steelDisk stylus: rubybase: stainless steel stem: tungsten carbide disk: rubyDisk stylus: steelbase: stainless steel disk: hardened steelDisk stylus: rubybase: stainless steeldisk: rubyStyli M2Unit: mm Mass: gKnuckle/swivel jointstainless steelSTYLI M2STYLI M2Extension steelstainless steelExtension ceramicend pieces: stainless steel stem: ceramicUnit: mm Mass: gComponents for measuring heads WITH M3 THREAD TP8 SP25MWITH M3 THREADStylus: tungsten carbidebase: stainless steel stem: tungsten carbideball: rubySTYLI M3STYLI M3Unit: mm Mass: gStyli M3Stylus: tungsten carbidebase: stainless steel stem: tungsten carbide ball: rubyStylus: ceramicbase: stainless steel stem: ceramicball: rubyStylus: carbon fiberbase: stainless steel stem: carbon fiberball: silicon nitrideUnit: mm Mass: gStylus: steelbase: stainless steelball: rubyStylus: steelbase: stainless steelball: rubyStylus: carbon fiberbase: stainless steel stem: carbon fiberball: rubySTYLI M3STYLI M3Unit: mm Mass: gStyli M35-way stylus holderstainless steel, fixedCylinder stylus: steelstainless steelCylinder stylus: rubybase: stainless steel stem: tungsten carbidetip: ruby5-way stylus holderstainless steel, rotatableUnit: mm Mass: gDisk stylus: steelbase: stainless steel stem: tungsten carbide disk: hardened steelKnuckle jointstainless steel5-way stylus holderstainless steel, rotatableAdaptorstainless steelSTYLI M3STYLI M3Unit: mm Mass: gStyli M3Stylus formulti-way stylusbase: stainless steelball: ruby4-way stylusbase: stainless steel stem: tungsten carbide stainless steelball: rubyUnit: mm Mass: gExtension: ceramicend pieces: stainless steelstem: ceramicExtension: steelstainless steelSTYLI M3STYLI M3Unit: mm Mass: gComponents for measuring heads WITH M4 THREAD TP7 SP600MPP310 MTP2000WITH M4 THREADStylus: ceramicbase: stainless steel stem: ceramicball: rubyStylus: steelbase: stainless steel ball: rubyStylus: steelbase: stainless steelball: rubySTYLI M4STYLI M4Unit: mm Mass: gStyli M4Extension: steelstainless steelExtension: ceramicend pieces: stainless steel stem: ceramic5-way stylus holderstainless steel, rotatableAdaptorstainless steelUnit: mm Mass: gAdaptorstainless steelAdaptorstainless steelAdaptor ceramicend pieces: stainless steelstem: ceramicSTYLI M4STYLI M4Unit: mm Mass: gAccessoriesPin spannerstainless steel orhardened steelBase plate forcalibration spherestainless steelMaster ballBase: Stainless Steel Tip: Ruby (ø 10 mm) Ceramic (ø 20 mm)Unit: mm Mass: gSensor Systems Test Equipmentand Seismometers Digital Scale and DRO SystemsSmall Tool Instrumentsand Data ManagementMitutoyo America CorporationOne Number to Serve You Better1-888-MITUTOYO (1-888-648-8869)M3 Solution Centers:Aurora, Illinois (Headquarters)Boston, MassachusettsHuntersville, North CarolinaMason, OhioPlymouth, MichiganCity of Industry, CaliforniaBirmingham, AlabamaRenton, WashingtonHouston, Texas1M 1116-03 • Printed in USA • Nov. 2016©216MitutoyoAmericaCorporationFind additional product literatureand our product catalogNote: All inform ation regarding our products, and in particular the illustrations, drawings, dim ensional and perform ancedata contained in this printed matter as well as other technical data are to be regarded as approximate average values. 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astm e1252对应的中文标准ASTM E1252是一项关于测量粗糙度的标准,暂无中文翻译。
我可以为您提供30个双语例句。
1. ASTM E1252 provides guidelines for measuring surface roughness.ASTM E1252为测量表面粗糙度提供了指导。
2. The standard recommends specific tools and methods for surface roughness measurement.该标准推荐了特定的工具和方法进行表面粗糙度测量。
3. The measurement equipment should be calibrated according to ASTM E1252.测量设备应根据ASTM E1252进行校准。
4. The standard defines the parameters to be measured when assessing surface roughness.该标准定义了评估表面粗糙度时需要测量的参数。
5. The measurements should be taken at multiple locations and averaged, as specified in ASTM E1252.根据ASTM E1252的规定,应在多个位置进行测量并求平均。
6. The standard recommends using a stylus or a non-contact method for surface roughness measurement.该标准建议使用探针或非接触方法进行表面粗糙度测量。
7. ASTM E1252 outlines the procedures for calculating surface roughness parameters.ASTM E1252概述了计算表面粗糙度参数的流程。
