ASTM F2050-2003 en Hand-held infant carriers

Designation:F2670–09Standard Consumer Safety Specification forInfant Bath Tubs1This standard is issued under thefixed designation F2670;the number immediately following the designation indicates the year of original adoption or,in the case of revision,the year of last revision.A number in parentheses indicates the year of last reapproval.A superscript epsilon(´)indicates an editorial change since the last revision or reapproval.INTRODUCTIONThis consumer safety specification is intended to address certain incidents associated with the use of infant bath tubs.The U.S.Consumer Product Safety Commission(CPSC)identified drowning incidents which generally involved infant bath tubs being used in adult tubs containing water and left unattended by their caregiver.The CPSC also identified non-fatal incidents related to collapsing of infant bath tubs.This specification does not address incidents in which infant bath tubs are unreasonably misused, are used in a careless manner that disregards the warnings and instructions that are provided with each product,or those instances where the caregiver leaves the infant unattended in the product.This consumer safety specification is written within the current state-of-the-art product technology. It is intended that this specification will be updated whenever substantive information becomes available and known to ASTM which necessitates additional requirements or justifies the revision of existing requirements.1.Scope1.1This consumer safety specification establishes perfor-mance requirements,test methods,and labeling requirements to promote the safe use of infant bath tubs.Specifically excluded from the scope of this standard are products com-monly known as bath slings,typically made of fabric or mesh.1.2This consumer safety specification is intended to reduce the risk of death and minimize injury to infants resulting from use and reasonably foreseeable abuse of infant bath tubs. 1.3No infant bath tub produced after the approval date of this consumer safety specification shall,either by label or other means,indicate compliance with this specification unless it conforms to all requirements contained herein.1.4The values stated in inch-pound units are to be regarded as standard.The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.1.5The following precautionary caveat pertains only to the test methods portion,Section7,of this consumer safety specification:This standard does not purport to address all of the safety concerns,if any,associated with its use.It is the responsibility of the user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use.2.Referenced Documents2.1ASTM Standards:2D3359Test Methods for Measuring Adhesion by Tape Test F963Consumer Safety Specification for Toy Safety2.2Federal Standards:316CFR1303Ban of Lead-Containing Paint and Certain Consumer Products Bearing Lead Containing Paint16CFR1500Federal Hazardous Substances Act Regula-tions16CFR1500.48Technical Requirements for Determining a Sharp Point in Toys and Other Articles Intended for Use by Children Under8Years of Age16CFR1500.49Technical Requirements for Determining a Sharp Metal or Glass Edge in Toys and Other Articles Intended for Use by Children Under8Years of Age16CFR1500.50Test Methods for Simulating Use and Abuse of Toys and Other Articles Intended for Use by Children16CFR1500.51Test Methods for Simulating Use and Abuse of Toys and Other Articles Intended for Use by Children18Months of Age or Less16CFR1501Method for Identifying Toys and Other1This consumer safety specification is under the jurisdiction of ASTM Commit-tee F15on Consumer Products and is the direct responsibility of Subcommittee F15.20on Bath Seats.Current edition approved Feb.1,2009.Published March2009.2For referenced ASTM standards,visit the ASTM website,,or contact ASTM Customer Service at service@.For Annual Book of ASTM Standards volume information,refer to the standard’s Document Summary page on the ASTM website.3Available from ernment Printing Office Superintendent of Documents, 732N.Capitol St.,NW,Mail Stop:SDE,Washington,DC20401,http:// .1Copyright©ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA19428-2959,United States.Articles Intended for Use by Children Under3Years of Age Which Present Choking,Aspiration,or Ingestion Hazards Because of Small Parts3.Terminology3.1Definitions of Terms Specific to This Standard:3.1.1conspicuous,adj—label position so that the label is visible,when the occupant is in the product and the product is in any manufacturer’s recommend use position(s),to a person standing near the product at any one position around the product,but not necessarily visible from all positions.3.1.2infant bath tub,n—tub,enclosure,or other similar product intended to hold water and be placed into an adult bath tub,sink,or on top of other surfaces to provide support or containment,or both,for an infant during bathing by an adult caregiver.3.1.3locking or latching mechanism,n—method of pre-venting an infant bath tub from folding or collapsing during use.3.1.4manufacturer’s recommended use position(s),n—any position that is presented as a normal,allowable,or acceptable configuration for the use of the product by the manufacturer in any descriptive or instructional literature.3.1.4.1Discussion—This specifically excludes positions which the manufacturer shows in a like manner in its literature to be unacceptable,unsafe,or not recommended.3.1.5nonpaper label,n—any label material,such as plastic or metal,that either will not tear without the aid of tools or tears leaving a sharply defined edge or labels made of fabric.3.1.6occupant,n—that individual who is in an infant bath tub in one of the manufacturer’s recommended use positions.3.1.7paper label,n—any label material that tears without the aid of tools and leaves afibrous edge.3.1.8principal display panel,n—that part of the product’s package that is most likely to be displayed,presented,shown or examined under normal or customary conditions of display for retail sale.3.1.9static load,n—vertically downward load applied by weights or other means.4.Calibration and Standardization4.1Unless otherwise noted,the infant bath tub shall be completely assembled in accordance with the manufacturer’s instructions.4.2The product to be tested shall be in a room with an ambient temperature of7369°F(2365°C)for at least1h prior to testing.Testing then shall be conducted within this temperature range.4.3All testing required by this specification shall be con-ducted on the same product sample.5.General Requirements5.1Hazardous Sharp Edges or Points—There shall be no hazardous sharp points or edges as defined in16CFR1500.48 and16CFR1500.49before or after the product has been tested to this consumer safety specification.5.2Small Parts—There shall be no small parts as defined in 16CFR1501before testing or liberated as a result of testing to this consumer safety specification.5.3Lead in Paints—All paint and surface coatings on the product shall comply with the requirements of16CFR1303.5.4Resistance to Collapse—Latching or locking mecha-nisms designed to prevent the unintentional collapse of the product with the infant in it shall comply with the following requirements when properly placed in any manufacturer’s recommended use position(s).5.4.1During and upon completion of the test in accordance with7.4,the product shall remain in the manufacturer’s recommended use position(s),and the latching or locking mechanism shall remain engaged and operative after testing.5.4.2For all single action mechanisms,the mechanism shall not release when tested in accordance with7.1.1.5.4.3All double action mechanisms shall require two dis-tinct and separate actions for release of the mechanism.5.4.4The mechanism shall also comply with the require-ments of this section after cycling has been conducted in accordance with7.1.2.5.5Scissoring,Shearing,and Pinching—The product, when in the manufacturer’s recommended use position(s),shall be designed and constructed to prevent injury to the occupant from any scissoring,shearing,or pinching when members or components rotate about a common axis or fastening point, slide,pivot,fold or otherwise move relative to one another. Scissoring,shearing,or pinching exists when the edges of the rigid parts admit a probe greater than0.210in.(5.33mm)and less than0.375in.(9.53mm)at any accessible point through-out the range of motion of such parts.5.6Openings—Holes or slots that extend entirely through a wall section of any rigid material less than0.375in.(9.53mm) thick and admit a0.210-in.(5.33mm)diameter rod shall also admit a0.375in.(9.53mm)diameter rod.Holes or slots that are between0.210in.(5.33mm)and0.375in.(9.53mm)and have a wall thickness less than0.375in.(9.53mm)but are limited in depth to0.375in.(9.53mm)maximum by another rigid surface shall be permissible(see Fig.1for examples).The product shall be evaluated in all manufacturer’s recommended use positions.5.7Protective Components—If a child can grasp any com-ponents between the thumb and forefinger,or teeth,such as caps,sleeves,or plugs used for protection from sharp edges, points,or entrapment offingers or toes,or if there is at least a 0.040-in.(1.00-mm)gap between the component and its adjacent parent component when the product is in its manu-facturer’s recommended use position(s),such component shall not be removed when tested in accordance with7.2.5.8Requirements for Toys—Toy accessories attached to, removable from,or sold with infant bath tubs,as well as their means of attachment,must meet applicable requirements of Consumer Safety Specification F963.5.9Labeling:5.9.1Warning labels,whether paper or nonpaper,shall be permanent when tested in accordance with7.3.1-7.3.4.5.9.2Warning statements applied directly onto the surface of the product by hot stamping,heat transfer,printing,wood burning,etc.shall be permanent when tested in accordance with7.3.1and7.3.5. 25.9.3Nonpaper labels shall not liberate small parts when tested in accordance with 7.3.6.6.Performance Requirements6.1Restraint System —Infant bath tubs may have a perma-nent or removable passive crotch restraint as part of their design.They shall not have any additional restraint system(s)which requires action on the part of the caregiver to secure or release the restraint.6.2Static Load —The product shall not break,become permanently deformed or damaged,or fail to comply with any of the other requirements of this specification when tested in accordance with7.4.6.3Specific Requirements for Suction Cups —Infant bath tubs that utilize individual suction cups as a method of attachment to a surface shall comply with the following requirements:6.3.1Each suction cup shall remain attached to the product and shall not become damaged or broken after testing in accordance with7.5.1.6.3.2The product shall remain attached to the test surface and shall not become damaged or broken after testing in accordance with7.5.2.7.Test Methods7.1Latching or Locking Mechanism :7.1.1Single Action Release Mechanism —With the product in each manufacturer’s recommended use position,gradually apply a 10-lbf (45-N)force to the locking or latching mecha-nism(s)in the direction tending to release it.7.1.2Latching or Locking Mechanism Durability —The latching or locking mechanism(s)shall be cycled through its normal operation a total of 2000cycles.Each cycleshallFIG.1OpeningExamples3consist of opening and closing the mechanism and erecting/ folding the product.Cycling shall be conducted at a rate of12 cycles per minute.7.2Protective Components:7.2.1Prior to conducting the torque and tension tests,first completely submerge the testable components for20min in clear water that is at an initial temperature of100to105°F (37.8to40.6°C).Conduct the following tests within10min after removal from the water.7.2.2Torque Test:7.2.2.1Using any convenient method to hold the parent component in place,grasp the component to be tested and apply a torque evenly over a period of5s in a clockwise direction until either a rotation of180°is attained or a torque value of4lbf-in.(0.4N-m)has been reached.7.2.2.2Maintain the torque value or the180°rotation for an additional10s and then allow the component to return to its original position.7.2.2.3Repeat this test using a torque in the counterclock-wise direction.7.2.3Tension Test—The same component which has under-gone the torque test also shall undergo the following tension test immediately following the torque test:7.2.3.1Using any convenient method to hold the parent component in place,grasp the component to be tested and apply a tension force of15lbf(67N)evenly over a period of 5s in the direction normally associated with the removal of the component.The device used to grasp the component should not compress or expand the component being tested so that it hinders any possible removal.7.2.3.2Maintain this force for an additional10s.7.3Permanence of Labels and Warnings:7.3.1To determine the permanence of a label or printing applied to the surface of the product,first completely submerge the label or printed area for20min in clear water that is at an initial temperature of100to105°F(37.8to40.6°C).Drain off the excess water and let the label or printed area air dry for24 h at7369°F(2365°C),50%RH,prior to conducting any permanency tests.7.3.2A paper label(excluding labels attached by a seam) shall be considered permanent if,during an attempt to remove it without the aid of tools or solvents,it cannot be removed,it tears into pieces upon removal or such action damages the surface to which it is attached.7.3.3A nonpaper label(excluding labels attached by a seam)shall be considered permanent if,during an attempt to remove it without the aid of tools or solvents,it cannot be removed or such action damages the surface to which it is attached.7.3.4A warning label attached by a seam shall be consid-ered permanent if it does not detach when subjected to a15-lbf (67-N)pull force applied in any direction using a3⁄4-in. diameter clamp surface.7.3.5Adhesion test for warnings applied directly onto the surface of the product.7.3.5.1Apply the tape test defined in Test Method B, Cross-Cut Tape Test of Test Methods D3359,eliminating parallel cuts.7.3.5.2Perform this test once in each different location where warnings are applied.7.3.5.3The warning statements will be considered perma-nent if the printing in the area tested is still legible and attached after being subjected to this test.7.3.6A nonpaper label,during an attempt to remove it without the aid of tools or solvents,shall not be removed or shall notfit entirely within the small parts cylinder defined in 16CFR1501if it can be removed.7.4Static Load Test:7.4.1Install the product according to the manufacturer’s instructions onto a smooth test surface.In the case where the product must be supported on or near its ends,use an appropriate support structure to simulate this support.7.4.2Place a weight of50lb(13.6kg)or three times the maximum weight recommended by the manufacturer,which-ever is greater,on the center of the product and distribute it upon a6by6-in.(150by150-mm)3⁄4-in.(19-mm)thick block made of high density polyethylene(HDPE).7.4.3Remove the weight after a time period of20min. 7.5Suction Cup Tests:7.5.1Suction Cup Attachment to Infant Bath Tub:7.5.1.1Install the product according to the manufacturer’s instructions onto a smooth test surface.If the product can be used inside another enclosure that may contain water(for example,a sink or an adult bath tub),flood the outer enclosure with clear water that is at an initial temperature of100to105°F (37.8to40.6°C)to a depth of2in.(51mm)above the highest point of the product occupant seating surface.Allow the product to soak for a minimum of20min.7.5.1.2Remove the product according to the manufacturer’s instructions and immediately apply to each suction cup a tensile force of25lbf(111N).Apply this force within5s and in the direction most likely to cause failure.Hold the force for an additional10s.7.5.1.3If the product cannot be used inside such other enclosure,then perform the test in7.5.1.2immediately after installing the product onto the surface.7.5.2Suction Cup Attachment to Surfaces:7.5.2.1Install the product according to the manufacturer’s instructions onto a smooth test surface.If the product can be used inside another enclosure that may contain water(for example,a sink or an adult bath tub),flood the outer enclosure with clear water that is at an initial temperature of100to105°F (37.8to40.6°C)to a depth of2in.(51mm)above the highest point of the product occupant seating surface.Allow the product to soak for a minimum of20min.7.5.2.2Within5s,apply a vertical pull force of25lbf(111 N)at the center of the product.Hold the force for an additional 10s.7.5.2.3Remove and install the product into the manufactur-er’s recommended use position(s)a total of2000cycles using the manufacturer’s recommended method(s).7.5.2.4Repeat the testing specified in7.5.2.2.7.5.2.5If the product cannot be used inside such other enclosure,then perform the tests in7.5.2.2-7.5.2.4immediately after installing the product onto thesurface. 48.Marking and Labeling8.1Each product and its retail package shall be marked or labeled clearly and legibly to indicate the following:8.1.1The name of the manufacturer,distributor,or seller, and either the place of business(city,state,and mailing address,including zip code),or telephone number,or both.8.1.2A code mark or other means that identifies the model number and the date(month and year at a minimum)of manufacture.8.2Any upholstery label required by law shall not be used to meet the requirements in8.1.8.3Each product’s retail package shall address the recom-mended age,developmental stage,or size of the user.8.4Each product shall be labeled with warning statements. The warning statements shall be in contrasting color(s),per-manent,conspicuous,and sans serif type face.Specified warning(s)shall be distinctively separated from any other wording or designs and shall appear in the English language ata minimum.8.4.1The safety alert symbol,the signal word,and all other words that are all capital letters shall be not less than0.2in.(5 mm)in height,with all remainder of the text not less than0.1 in.(2.5mm)in height.8.4.2The following warnings shall be included,with the safety alert symbol and header included exactly as shown in bold capital letters,and the warning statements addressing the hazard."WARNING–DROWNING HAZARDInfants have DROWNED in infant bath tubsALWAYS keep infant within adult’s reach8.4.3Additional warning statements shall address the fol-lowing:NEVER lift this product with infant in it.NEVER place this product in water in an adult bath tub or sink.ALWAYS keep the drain open in the adult bath tub or sink.8.4.4Products utilizing suction cups as an attachment mechanism to the support surface,and which are not recom-mended by the manufacturer to be used on any type of slip-resistant surface,shall also include a warning to this effect. In addition,if there are other types of surfaces that the manufacturer does not recommend the product be used on,then additional warning(s)shall be given regarding such surface(s). Such warning(s)shall use the signal word WARNING pre-ceded by the safety alert symbol,and shall meet the require-ments described in8.4.1.8.5Each product’s retail package shall be labeled on the principal display panel with the warnings required in8.4.2 according to the requirement in8.4.1.8.6Warnings,statements,or graphic pictorials on the prod-uct and package shall not indicate or imply that the infant may be left in the product without a caregiver in attendance.9.Instructional Literature9.1All products shall have instructional literature enclosed which explains the proper use of the product.Such literature shall include instructions for assembly,maintenance,cleaning, inspections,and limitations of the product,as well as the manufacturer’s recommended use position(s).9.2Warning Statements in Instructional Literature:9.2.1Instructional literature shall include the warnings specified in8.4.2,8.4.3,and8.4.4.9.2.2Warning statements in instructional literature shall also address the following:Infants can drown in as little as1inch of water.ALWAYS bathe your infant using as little water as neces-sary.NEVER allow other children to substitute for adult super-vision.9.2.3Warning statements in instructional literature shall meet the requirements described in8.4for letter height, contrasting color(s),and sans serif type face,and shall appear in the English language at a minimum.9.3Instructional literature shall also advise to test the temperature of the water in,or being put into,the infant bath tub prior to placing the infant into the product.Instructions shall also indicate that the typical water temperature for bathing a baby should be between90and100°F(32.2and 37.8°C).9.4Instructional literature shall instruct to discontinue the use of the product if it becomes damaged,broken,or disas-sembled.9.5Instructional literature shall include the information as specified in8.3.9.6Warnings,statements,or graphic pictorials shall not indicate or imply that the infant may be left in the product without a caregiver in attendance.10.Keywords10.1drowning;infant bath tubASTM International 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 everyfive 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 International 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,at the address shown below.This standard is copyrighted by ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA19428-2959, United States.Individual reprints(single or multiple copies)of this standard may be obtained by contacting ASTM at the above address or at610-832-9585(phone),610-832-9555(fax),or service@(e-mail);or through the ASTM website().5。

美国FDA食品接触材料相关检测标准
随着食品生产技术的日益多元化，食品安全问题已经不仅仅限于食品本身，还包括与食品直接或间接接触的材料。

这些材料包括食品容器、包装材料、餐厨具等，统称为食品接触材料。

由其导致的食品安全问题越来越受到社会各界的关注。

食品接触材料的测试也称为“食品级测试”。

欧盟和美国对食品接触材料管控非常严格，要求出口到欧盟及美国的产品必须通过相应的测试认证。

我国对不同的食品接触材料也有着严格的卫生要求。

因此，无论是出口或是在国内销售的食品接触材料，都必须通过相应的质量安全检测。

莱德凭借专业的技术人才及实验室，针对不同的产品类型、出口国家等，为客户提供全面的检测、认证及咨询服务。

在食品接触材料方面，我们能够为您提供以下FDA检测标准要求：
美国要求
欧盟要求
中国要求。

ASTM美国材料标准清单（中文版）ASTM美国材料标准中文版ASTM A488/A488-2007 钢铸件焊接工艺和人员资格评定的标准实施规程（Standard Practice for Steel Castings, Welding, Qualifications of Procedures and Personnel）ASTM A802/A 802M-1995(R2006重新审批) 视觉检测铸钢表面验收标准规程（STANDARD PRACTICE FOR STEEL CASTINGS, SURFACE ACCEPTANCE STANDARDS, VISUAL EXAMINATION）ASTM B108-2006 铝合金永久型铸件标准规范（STANDARD SPECIFICATION FOR ALUMINUM-ALLOY PERMANENT MOLD CASTINGS）ASTM B179-2006 铸造用铝合金原锭及熔融锭在各铸造过程的标准技术规范（STANDARD SPECIFICATION FOR ALUMINUM ALLOYS IN INGOT AND MOLTEN FORMS FOR CASTINGS FROM ALL CASTING PROCESSES）ASTM B26/B26M-2005 铝合金砂铸件标准规范（STANDARD SPECIFICATION FOR ALUMINUM-ALLOY SAND CASTINGS）ASTM D256-2006 测定塑料抗悬臂梁摆锤冲击性的标准试验方法（STANDARD TEST METHODS FOR DETERMINING THE IZOD PENDULUM IMPACT RESISTANCE OF PLASTICS）ASTM D2794-1993(R2004) 有机涂层抗快速形变(冲击)作用的标准试验方法（STANDARD TEST METHOD FOR RESISTANCE OF ORGANIC COATINGS TO THE EFFECTS OF RAPID DEFORMATION (IMPACT) ）ASTM D3359-2008 胶带试验用测定粘合性的标准试验方法（STANDARD TEST METHODS FOR MEASURING ADHESION BY TAPE TEST）ASTM D3363-2005 铅笔试验法测定涂膜硬度的标准试验方法（STANDARD TEST METHOD FOR FILM HARDNESS BY PENCILTEST）ASTM D4060-2007 用泰伯尔磨蚀机测定有机涂层耐磨性的标准试验方法（STANDARD TEST METHOD FOR ABRASION RESISTANCE OF ORGANIC COATINGS BY THE TABER ABRASER）ASTM D4674-2002A 暴露在室内办公室环境下的塑料颜色稳定性加速试验的标准实施规范（STANDARD TEST METHOD FOR ACCELERATED TESTING FOR COLOR STABILITY OF PLASTICS EXPOSED TO INDOOR OFFICE ENVIRONMENTS）ASTM D4752-2003 用溶剂擦试法测定硅酸乙酯(无机)富锌底漆耐甲乙酮的标准试验方法（STANDARD TEST METHOD FOR MEASURING MEK RESISTANCE OF ETHYL SILICATE (INORGANIC) ZINC-RICH PRIMERS BY SOLVENT RUB）ASTM D4828-1994E1(R2003) 有机覆层实际可洗性的标准试验方法（STANDARD TEST METHODS FOR PRACTICAL WASHABILITY OF ORGANIC COATINGS）ASTM D638-2003 塑料拉伸性能标准测试方法（STANDARD TEST METHOD FOR TENSILE PROPERTIES OF PLASTICS）ASTM E1316-2007 无损检测标准术语（STANDARD TERMINOLOGY FOR NONDESTRUCTIVE EXAMINATIONS）ASTM E1444-2005 磁粉检测标准规程（STANDARD PRACTICE FOR MAGNETIC PARTICLE TESTING）ASTM E155-2005 铝、镁铸件检验用标准参考射线底片（STANDARD REFERENCE RADIOGRAPHS FOR INSPECTION OF ALUMINUM AND MAGNESIUM CASTINGS）ASTM E165-2002 液体渗透剂检查标准测试方法（STANDARD TEST METHOD FOR LIQUID PENETRANT EXAMINATION）ASTM E165-2002 液体渗透检查的标准试验方法王倩译（STANDARD TEST METHOD FOR LIQUID PENETRANT EXAMINATION）ASTM E192-2004 航天设备蜡模钢铸件的参考放射线照相（STANDARD REFERENCE RADIOGRAPHS OF INVESTMENT STEEL CASTINGS FOR AEROSPACE APPLICATIONS）ASTM E242-2001(2005年重新批准) 在某些参数变化时射线图像外观用标准参考射线底片（STANDARD REFERENCE RADIOGRAPHS FOR APPEARANCES OF RADIOGRAPHIC IMAGES AS CERTAIN PARAMETERS ARE CHANGED）ASTM E385-2007 使用14兆电子伏特的中子活化和直接计数技术测定含氧量的试验方法（STANDARD TEST METHOD FOR OXYGEN CONTENT USING A 14-MEV NEUTRON ACTIVATION AND DIRECT-COUNTING TECHNIQUE）ASTM E426-1998(2007重新审批) 无缝及焊接管产品、沃斯田不锈钢及类似合金的电磁（涡电流）检测操作规程（Standard Practice for Electromagnetic (Eddy-Current) Examination of Seamless and Welded Tubular Products, Austenitic Stainless Steel and Similar Alloys）ASTM E446-98（2004年重新批准）用于厚度在2in(51mm)以下钢铸件的标准参考射线底片（STANDARD REFERENCE RADIOGRAPHS FOR STEEL CASTINGS UP TO 2 IN. (51 MM) IN THICKNESS (ALSO SEE ASTM E 446 ADJUNCT SET, ASTM E 446 ADJUNCT V1, ASTM E 446 ADJUNCT V2. AND ASTM E 446 ADJUNCT V3)）ASTM E466-2007 金属材料上进行的恒定振幅轴向疲劳试验（STANDARD PRACTICE FOR CONDUCTING FORCE CONTROLLED CONSTANT AMPLITUDE AXIAL FATIGUE TESTS OF METALLIC MATERIALS ）ASTM F2357-2004 使用NORMAN工具"RCA"磨擦器测定薄膜开关上墨水和涂层抗磨性的标准试验方法（STANDARD TEST METHOD FOR DETERMINING THE ABRASION RESISTANCE OF INKS AND COATINGS ON MEMBRANE SWITCHES USING THE NORMAN TOOL "RCA" ABRADER）ASTM G154-2006 非金属材料暴露用荧光灯紫外暴露装置的操作规范标准（STANDARD PRACTICE FOR OPERATING FLUORESCENT LIGHT APPARATUS FOR UVEXPOSURE OF NONMETALLIC MATERIALS）ISO,ASME,ASTM,DIN, JIS 国外管道法兰用密封垫片标准汇编ASTM F36-1995? 测定垫片材料压缩率及回弹率的标准试验方法ASTM F37-1995? 垫片材料密封性的标准试验方法ASTM F38-1995? 垫片材料的蠕变松弛的标准试验方法ASTM F112-1995? 包覆垫片密封性能的标准试验方法ASTM F146-1995A? 垫片材料耐液体标准试验方法ASTM F363-1989(1994年重新确认) 垫片腐蚀试验的标准方法ASTM F336-1992? 用于腐蚀工况的非金属包覆垫片的设计与结构用标准方法ASTM F586-1979(1989年重新确认) 测定垫片汇漏(泄漏率与应力y和系数m的关系)的标准试验方法ASTM A6/A6M-2004 a版结构用轧制钢板、型钢、板桩和棒钢通用要求ASTM A27/A27M-2005版一般用途碳钢铸件标准技术条件ASTM A29/A29M-2005版热锻碳素钢和合金钢棒材一般要求标准规范ASTM A36/A36M-2005版碳结构钢标准规范ASTM A36/A36M-2004 碳结构钢标准规范ASTM A48/A48M-2003版灰铸铁铸件标准技术条件ASTM A53/A53M-2005版无镀层及热浸镀锌焊接与无缝公称钢管标准技术条件ASTM A105/A105M-2005版管道部件用碳钢锻件ASTM A106-2006版高温用无缝碳钢公称管规范ASTM A108-2003版冷精整的碳钢和合金钢棒材标准技术条件ASTM A123/A123M-2002版钢铁产品镀锌品层(热浸镀)标准规范ASTM A126-2004版阀门、法兰和管道附件用灰铁铸件ASTM A143-2003版热浸镀锌结构钢制品防脆化的标准实施规程和催化探测方法ASTM A153/A153M-2005版钢铁构件镀锌层(热浸镀)标准规范ASTM A179/A179M-1990a（R2001）版热交换器和冷凝器用无缝冷拉低碳钢管标准规范ASTM A192-2002版高压设备用无缝碳钢锅炉管标准规范ASTM A193/A193M-2006版高温用合金钢和不锈钢螺栓材料ASTM A194/A194M-2006版高温或高压或高温高压螺栓用碳钢及合金钢螺母标准规范ASTM A209/A209M-2003版锅炉和过热器用无缝碳钼合金钢管标准规范ASTM A210/A210M-2002版无缝中碳钢锅炉管和过热器管标准规范ASTM A213/A213Mb-2004版无缝铁素体和奥氏体合金钢锅炉管、过热器管和换热器管标准规范ASTM A216/A216M-2004版高温用可熔焊碳钢铸件标准规范ASTM A234/A234M-2004版中、高温用锻制碳钢和合金钢管道配件ASTM A240/A240M-2005版压力容器用耐热铬及铬－镍不锈钢钢板、薄板和钢带标准技术条件ASTM A250/A250M-2004版锅炉和过热器用电阻焊铁素体碳合金钢管子标准技术条件ASTM A252-98（R2002）版焊接钢和无缝钢管桩的标准规范ASTM A262-2002a版探测奥氏体不锈钢晶间腐蚀敏感度的标准实施规范ASTM A269/A269-2004版通用无缝和焊接奥氏体不锈钢管标准规范ASTM A276-2006版不锈钢棒材和型材标准规范ASTM A283/A283M-2003版中、低抗拉强度碳素钢板标准技术条件ASTM A285/A285M-2003版压力容器用中、低抗拉强度碳素钢标准技术条件ASTM A307/A307M-2004版抗拉强度6000PSI碳钢螺栓和螺柱标准技术条件ASTM A312/A312M-2005版无缝和焊接的以及重度冷加工奥氏体不锈钢公称管标准技术条件ASTM A320/A320M-2005版低温用合金钢栓接材料标准规范ASTM A333/A333M-2004版低温设备用无缝和焊接钢管的规范标准ASTM A334/A334M-2004版低温设备用无缝和焊接碳素和合金钢管的标准规范ASTM A335-2003版高温设备用无缝铁素体合金钢管标准规范ASTM A336/A336M-2005版高温承压件合金钢锻件标准技术条件ASTM A350/A350M-2004a版需切口韧性试验的管道部件用碳钢和低合金钢锻件标准规范ASTM A351/A351M-2006版承压件用奥氏体铸钢件标准规范ASTM A352/A352M-2006版低温承压用铁素体和马氏体铸钢件标准规范ASTM A356/A356M-2005版汽轮机用厚壁碳钢、低合金钢和不锈钢铸件标准技术条件ASTM A370-2005版钢制品力学性能试验方法和定义标准ASTM A387/A387M-2003版压力容器用铬钼合金钢板的标准规范ASTM A403/A403M-2004版锻制奥氏体不锈钢管配件的标准规范ASTM A450/A450M-2004版碳素钢管、铁素体合金钢管及奥氏体合金钢管一般要求的标准规范ASTM A479/A479M-2005版锅炉和其他压力容器用不锈钢棒材和型材标准技术条件ASTM A484/A484M-2005版不锈钢棒材、钢坯及锻件通用要求标准技术条件ASTM A500-2003a版圆形与异型冷成型焊接与无缝碳素钢结构管标准规范ASTM A515-2003版中温及高温压力容器用碳素钢板的标准规范ASTM A516-2004a版中温及低温压力容器用碳素钢板的标准规范ASTM A519-2003版机械工程用碳素钢和铝合金钢无缝钢管ASTM A530-2003版特种碳素钢和合金钢管一般要求的标准规范ASTM A577/A577M-90(R2001）版钢板超声斜射波检验ASTM A589/A589M-2006版打水井用碳素钢无缝钢管和焊接钢管ASTM A609/A609M-1991（82002）版碳钢、低合金钢和马氏体不锈钢铸件超声波检验ASTM A615/A615M-2004a版混凝土配筋用异形钢筋和无节钢胚棒标准规范ASTM A703/A703M-2004版标准技术条件—承压件钢铸件通用要求ASTM A751-2001版钢制品化学分析方法，实验操作和术语ASTM A781/A781M-2004a版铸件、钢和合金的标准规范及通用工业的一般性要求ASTM A788/A788M-2004a版标准技术条件—钢锻件通用要求ASTM A965/A965M-2002版高温承压件用奥氏体钢锻件标准规范ASTM B16/B16M-2005版螺纹切削机用易车削黄铜棒、条和型材标准规范ASTM B62/B62M-2002版青铜或高铜黄铜铸件标准规范ASTM B209-2004版铝和铝合金薄板和中厚板标准规范ASTM B462-2004版高温耐腐蚀用锻制或轧制的UNS NO6030、UNS NO6022、UNS NO6200、UNS NO8020、UNS NO8024、UNS NO8026、UNS NO8367、UNS NO10276、UNS N10665、UNS N10675和UNS R20033合金管法兰、锻制管件、阀门和零件标准规范ASTM B564-2004版镍合金锻件标准规范ASTM E6-2003版关于力学性能试验方法的标准术语ASTM E10-2001版金属材料布氏硬度的标准试验方法ASTM E18-2003版金属材料洛氏硬度和洛氏表面硬度的标准测试方法ASTM E29-2002版使用有效数字确定试验数据与规范符合性作法ASTM E8M-2004版金属材料拉伸试验的标准测试方法ASTM E94-2004版放射性检查的标准指南ASTM E125-1963（R2003）版铁铸件的磁粉检验用标准参考照片ASTM E164-2003版焊件的超声接触检验的标准操作规程ASTM E208-1995a(R2000)版用导向落锤试验测定铁素体钢无塑性转变温度的标准试验方法ASTM E213-2004版金属管超声检验方法ASTM E273-2001版焊接公称管和管子制品超声波检验用标准实用规程ASTM E709-2001版磁粉试验的推荐试验方法ASTM F36-1999(R2003）版测定垫片材料压缩率及回弹率的标准试验方法ASTM F37-2000版垫片材料密封性的标准试验方法ASTM F38-2000版垫片材料的蠕变松弛的标准试验方法ASTM F112-2000版包复垫片密封性能的标准试验方法ASTM F146-2004版垫片材料耐液体标准试验方法ASTM F1311-1990(R2001)版大口径组装式碳钢法兰标准规范ASTM G1-2003版腐蚀试样的制备、清洁处理和评定用标准实施规范ASTM G36-73(R1981) 参考资料标准实用规程：在沸的氯化镁溶液中进行的应力腐蚀裂纹试验ASTM G46-1976(R1986) 参考资料标准实用规程：麻点腐蚀的检验和评定ASTM G48-2003版使用三氯化铁溶液做不锈钢及其合金的耐麻点腐蚀和抗裂口腐蚀性试验的标准方法ASTM标准中译本丛书（一）碳钢、铸铁、不锈钢及合金钢材料标准规范（含18个标准)1. ASTM A105/A105M-2002版管道部件用碳钢锻件2. ASTM A126-1995(R2001)版阀门、法兰和管道附件用灰铁铸件3. ASTM A181/A181M-2001 版通用管路用碳钢锻件标准规范4. ASTM A193/A193M-2001版 ?高温用合金钢和不锈钢螺栓材料5. ASTM A194/A194M-2001a版高温、高压或高温高压螺栓用碳钢及合金钢螺母标准规范6. ASTM A216/A216M-2001a版高温用可熔焊碳钢铸件标准规范7. ASTM A217/A217M-2002 版高温承压件用马氏体不锈钢和合金钢铸件标准规范8. ASTM A276-2002a版不锈钢棒材和型材9. ASTM A278/A278M-2001版高温不超过650°F（350℃）的承压部件用灰铸铁件10. ASTM A320/A320M-2002 版低温用合金钢栓接材料11. ASTM A350/A350M-2002 版要求冲击韧性试验的管件用碳钢及低合金钢锻件标准规范12. ASTM A351/A351M-2000 版承压件用奥氏体、奥氏体-铁素体（双相）钢铸件规范13. ASTM A352/A352M-1993(R1998)版低温承压件用铁素体和马氏体钢铸件标准规范14. ASTM A395/A395M-1999 版高温用铁素体球墨铸铁承压铸件15. ASTM A439-1983(R1999)版奥氏体球墨铸铁件16. ASTM A536-1984(R1999)版球墨铸铁件17. ASTM A694/A694M-2000? 版高温输送用管法兰、管件、阀门及零件用碳钢和合金钢锻件标准规范18. ASTM A965/A965M-2002 版高温高压部件用奥氏体钢锻件ASTM标准中译本丛书（二）法兰、管件、阀门及部件（含9个标准）1. ASTM A182/A182M-2002版高温用锻制或轧制合金钢法兰、锻制管件、阀门和部件2. ASTM A961-2002版管道用钢制法兰、锻制管件、阀门和零件的通用要求标准规范3. ASTM B462-2002版高温耐腐蚀用锻制或轧制的UNS NO6030、UNS NO6022、UNS NO6200、UNS NO8020、UNS NO8024、UNS NO8026、UNS NO8367、UNS NO10276、UNS N10665、UNS N10675和UNS R20033合金管法兰、锻制管件、阀门和零件标准规范4. ASTM F885-1984（R2002）版公称管径为NPS 1/4～2的青铜截止阀外形尺寸标准规范5. ASTM F992-1986(R2001)版阀门铭牌标准规范6. ASTM F993-1986(R2001)版阀门锁紧装置标准规范7. ASTM F1030-1986(R1998)版阀门操作装置的选择准则8. ASTM F1098-1987(R1998)版公称管径有NPS2～24的蝶阀外形尺寸标准规范9. ASTM F1565-2000版蒸汽用减压阀规范。

美国环境保护署复合木制品甲醛释放限量认证机构认可方案1范围1.1本文件根据美国环境保护署（以下简称EPA）《复合木制品甲醛释放限量标准》的相关规定，提出了对实施复合木制品甲醛释放限量认证（以下简称EPA复合木制品认证）的认证机构应遵守的特定要求，适用于CNAS对实施EPA复合木制品认证的认证机构认可工作。

1.2此类认证机构除应满足本文件的特定要求外，还应满足CNAS-CC02《产品、过程和服务认证机构要求》的所有相关要求。

1.3本文件R部分是对CNAS-RC01《认证机构认可规则》的补充规定和进一步说明，C部分是对CNAS-CC02的补充要求，其效力等同于相应类别的认可规范文件。

1.4除本文件的特殊规定或要求外，CNAS制定的认可规则和产品认证机构的认可准则等认可规范均适用，应同时满足这些文件的要求。

2规范性引用文件下列文件中的条款通过本文件的引用而成为本文件的条款。

以下引用的文件，注明日期的，仅引用的版本适用；未注明日期的，引用文件的最新版本（包括任何修订）适用。

CNAS-RC01《认证机构认可规则》CNAS-RC02《认证机构认可资格处理规则》CNAS-RC03《认证机构信息通报规则》CNAS-RC04《认证机构认可收费管理规则》CNAS-CC02《产品、过程和服务认证机构要求》（idt, ISO/IEC 17065）40 CFR PART 770美国《联邦法规汇编》第40篇770部分《复合木制品甲醛释放限量标准》ASTM E1333-10《使用大型气候箱测定木制品空气中甲醛浓度及释放率的标准检测方法》ASTM D6007-02《使用小型气候箱测定木制品空气中甲醛浓度的标准检测方法》3术语和定义CNAS-CC02、40 CFR PART 770给出的术语和定义适用于本文件。

4R部分R1认可程序R1.1认可申请R1.1.1对于原已获得CNAS认可的产品认证机构应在具备以下条件的基础上，向CNAS提出认可申请：1)复合木制品行业的相关经验。

ASTM 美国材料试验协会标准目录ASTM A1000-2005 特种弹簧质量级碳钢丝及合金钢丝规格5页ASTM A1001-2001(2006) 硅铁规格5页ASTM A100-2007 硅铁规格6页ASTM A1002-1999(2003) 镍-铝有序合金铸件规格2页ASTM A1003/A1003M-2005 冷成形框式构件用金属和非金属镀层碳素钢薄板规格6页ASTM A1004/A1004M-1999(2004) 准备用作冷成形框架构件的金属、涂漆金属和非金属涂敷钢薄板规格3页ASTM A1005/A1005M-2000(2004) 平端纵焊缝和螺旋焊缝双重埋弧焊干线用黑钢管规格6页ASTM A1006/A1006M-2000(2004) 平端激光束焊接干线用黑钢管规格6页ASTM A1007-2002 钢丝绳用碳素钢丝规格9页ASTM A1008/A1008M-2007 高强度低合金冷轧碳素结构钢薄板以及可成型性、溶液硬化和可烘烤硬化性经改进的高强度低合金冷轧碳素结构钢薄板规格10页ASTM A1009-2005 高频(10kHz-1 MHz)电力变压器和滤波感应器设备用软磁性MnZn铁芯材料规格3页ASTM A1010/A1010M-2001e1 更高强度马氏体不锈钢厚板、薄板和带材规格2页ASTM A1011/A1011M-2006b 高强度低合金冷轧碳素结构钢薄板和带材、可成型性经改进的高强度低合金冷轧碳素结构钢薄板和带材以及具有超高强度的低合金冷轧碳素结构钢薄板和带材的规格8页ASTM A101-2004 铬铁规格3页ASTM A1012-2002(2007) 带整体式散热片的铁素体、奥氏体和二相合金钢冷凝器与热交换器无缝管及焊接管的规格4页ASTM A1013-2000(2005) 使用瓦特表-安培表和电压表方法在控制温度下测量软磁芯部件高频(10 kHz-1 MHz)磁芯损耗的试验方法4页ASTM A1014/A1014M-2006 高温工作用沉淀硬化螺栓材料(UNS N07718)规格3页ASTM A1015-2001(2005) 卫生设施用管状产品管内图像检测指南3页ASTM A1016/A1016M-2004a 铁素体合金钢、奥素体合金钢和不锈钢管通用要求规格11页ASTM A1017/A1017M-2007 压力容器用铬钼钨合金钢中厚板规格3页ASTM A1018/A1018M-2006c 碳素钢、市售钢、拉制钢、结构钢、高强度低合金钢、可成型性经改进的高强度低合金钢以及超高强度钢热轧薄板、带材和特厚卷材规格9页ASTM A1019/A1019M-2001 下水道和排水管用聚合物预涂的直径为36英寸或不足36英寸[900 mm]的闭合肋钢管规格6页ASTM A1020/A1020M-2002 锅炉、过热器、热交换器和冷凝器设备用溶焊碳钢和碳锰钢管道规格3页ASTM A1021/A1021M-2005 高温用马氏体不锈钢锻件和锻坯规格4页ASTM A1022/A1022M-2006 混凝土钢筋用异形及普通不锈钢钢丝和焊接钢丝的规格10页ASTM A102-2004 钒铁规格3页ASTM A1023/A1023M-2002 通用多股绞合碳素钢丝绳规格37页ASTM A1024/A1024M-2002 干线用无缝平端黑钢管规格6页ASTM A1025-2005 铁基合金通用要求规格4页ASTM A1026-2003 建筑构架中使用的合金钢结构型材规格2页ASTM A1028-2003 压缩机和涡轮机翼剖面用不锈钢棒材规格4页ASTM A1030/A1030M-2005 钢薄板产品平面度特性的测量规程11页ASTM A1031-2005 热轧合金钢、拉制钢和结构合金薄板、带材及特厚卷材规格4页ASTM A1032-2004 预应力混凝土管用冷拉钢丝耐氢脆性的试验方法3页ASTM A1033-2004 亚共析碳钢和低合金钢相变的定量测量与报告规程14页ASTM A1034/A1034M-2005b 测试钢筋用机械钢筋接头的试验方法6页ASTM A1035/A1035M-2007 混凝土配筋用异形及光面低碳铬钢筋规格5页ASTM A1036-2004 用小型单个薄钢板测试仪测量电工用扁钢电源频率磁性的指南5页ASTM A1037/A1037M-2005 炉内对焊黑色钢制干线用管规格5页ASTM A1038-2005 采用超声波接触阻抗法的便携式硬度试验机规程6页ASTM A1039/A1039M-2004 用双滚筒铸造方法生产的市售热轧结构碳钢薄板规格7页ASTM A1040-2007 规定锻制低合金碳钢及合金碳钢协调标准牌号成份的指南12页ASTM A1041/A1041M-2004 压力容器用高强度铬钼钨合金钢厚板规格3页ASTM A1042/A1042M-2004 下水道和排水沟用复合波纹钢管规格8页ASTM A1043/A1043M-2005 建筑物用低屈服拉伸比结构钢规格3页ASTM A1044/A1044M-2005 混凝土抗剪钢筋用钢螺柱组合件规格5页ASTM A1045-2005 水厕冲座与卫生排水系统连接用柔性聚氯乙烯密封圈规格5页ASTM A1046/A1046M-2006 用热浸法涂敷锌铝锰合金的薄钢板规格8页ASTM A1047/A1047M-2005 测试管道漏气的试验方法5页ASTM A1048/A1048M-2006 高温用高强度铬钼钨合金钢压力容器锻件规格3页ASTM A1049/A1049M-2006 压力容器和相关部件用铁素体/奥氏体（双工）不锈钢锻件规格4页ASTM A105/A105M-2005 管道设备用碳钢锻件规格5页ASTM A1053/A1053M-2006 铁素体-马氏体焊接不锈钢管规格5页ASTM A106/A106M-2006a 高温用无缝碳钢管规格9页ASTM A108-2003e1 冷加工碳素钢棒规格7页ASTM A109/A109M-2003 冷轧碳（最大0.25%）钢带规格9页ASTM A111-1999a(2004)e1 电话和电报线路用镀锌铁丝规格3页ASTM A116-2005 镀锌钢丝编织栅栏规格6页ASTM A1-2000(2005) 碳素钢T型钢轨规格6页ASTM A121-1999(2004) 镀金属钢制剌钢丝规格4页ASTM A123/A123M-2002 钢铁制品镀锌层（热浸镀锌）规格8页ASTM A125-1996(2001) 热处理钢螺旋弹簧规格6页ASTM A126-2004 阀门、法兰及管道配件用灰铸铁件规格3页ASTM A128/A128M-1993(2003) 奥氏体锰钢铸件规格2页ASTM A131/A131M-2007 船用结构钢规格7页ASTM A132-2004 钼铁规格3页ASTM A134-1996(2005) 电熔（弧）焊钢管（尺寸NPS 16及以上）规格4页ASTM A135/A135M-2006 电阻焊钢管规格9页ASTM A139/A139M-2004 电熔(弧)焊钢管(NPS4及以上)规格6页ASTM A143/A143M-2003 防止热浸镀锌结构钢制品变脆和检测变脆程序的规程3页ASTM A144-2004 钨铁规格2页ASTM A146-2004 氧化钼制品规格2页ASTM A148/A148M-2005 结构用高强度钢铸件规格4页ASTM A153/A153M-2005 钢铁构件镀锌层（热浸）规格5页ASTM A159-1983(2006) 汽车用灰铁铸件规格5页ASTM A167-1999(2004) 不锈钢和耐热铬镍钢厚板、薄板及带材规格2页ASTM A176-1999(2004) 不锈钢和耐热铬钢板、薄板及带材规格2页ASTM A178/A178M-2002 电阻焊碳素钢和碳素锰钢锅炉管的规格4页ASTM A179/A179M-1990a(2005) 热交换器和冷凝器用冷拉低碳无缝钢管的规格2页ASTM A181/A181M-2006 通用锻制碳素钢管的规格3页ASTM A182/A182M-2006 高温下使用的锻制或轧制合金钢和不锈钢管法兰、锻制管件、阀门及零件规格18页ASTM A183-2003 碳素钢轨螺栓及螺母规格4页ASTM A184/A184M-2006 混凝土配筋用生产的螺纹钢条网规格3页ASTM A185/A185M-2006e1 混凝土钢筋用普通焊接钢丝规格6页ASTM A192/A192M-2002 高压下使用的无缝碳素钢锅炉管规格3页ASTM A193/A193M-2007 高温或高压及其它特定用途设备用合金钢和不锈钢螺栓材料规格13页ASTM A194/A194M-2007a 高压或高温作业或者高压高温作业用螺栓的碳钢及合金钢螺母的规格11页ASTM A197/A197M-2000(2006) 铸造韧性铁规格4页ASTM A20/A20M-2006 压力容器用中厚钢板的一般要求规格33页ASTM A203/A203M-1997(2003) 镍合金钢压力容器板规格3页ASTM A204/A204M-2003 压力容器用钼合金钢厚板规格3页ASTM A209/A209M-2003 无缝钼碳合金锅炉和过热管规格3页ASTM A210/A210M-2002 锅炉和过热器用无缝中碳钢管规格3页ASTM A213/A213M-2007 锅炉、过热器和换热器用无缝铁素体与奥氏体合金钢管规格12页ASTM A214/A214M-1996(2005) 换热器和冷凝器用电阻焊碳素钢管规格2页ASTM A216/A216M-2004 高温下使用的适用于熔焊的碳素钢铸件规格4页ASTM A217/A217M-2007 适合高温受压零件用马氏体不锈钢和合金钢铸件的规格4页ASTM A220/A220M-1999(2004) 珠光体韧性铁规格5页ASTM A2-2002 普通型、槽型和防护型碳素钢工字钢轨规格3页ASTM A225/A225M-2003 压力容器用锰钒镍合金钢板规格3页ASTM A227/A227M-2006 机械弹簧用冷拉钢丝规格4页ASTM A228/A228M-2002 乐器用优质弹簧钢丝规格4页ASTM A229/A229M-1999(2005) 机械弹簧用油回火钢丝规格4页ASTM A230/A230M-2005 优质油回火阀弹簧用碳素钢丝规格4页ASTM A231/A231M-2004 铬钒合金钢弹簧钢丝规格4页ASTM A232/A232M-2005 优质阀门簧用铬钒合金钢规格4页ASTM A234/A234M-2007 中温与高温用锻制碳素钢及合金钢管配件的规格8页ASTM A239-1995(2004) 铁或钢制品上镀锌层最薄点的定位规程4页ASTM A240/A240M-2007 压力容器与普通设备用铬和铬镍不锈钢中厚板、薄板及带材规格12页ASTM A242/A242M-2004e1 高强度低合金结构钢规格4页ASTM A247-2006 评定铁铸件中石墨微结构的试验方法2页ASTM A249/A249M-2004a 焊接的奥氏体钢锅炉、过热器、热交换器和冷凝器管规格10页ASTM A250/A250M-2005 锅炉和过热器用电阻焊铁素体合金钢管规格4页ASTM A252-1998(2002) 焊接与无缝钢管桩规格7页ASTM A254-1997(2002) 铜焊钢管规格4页ASTM A255-2002e1 测定钢硬度用端部淬火试验方法24页ASTM A262-2002ae3 奥氏体不锈钢晶间腐蚀敏感性的检测规程17页ASTM A263-2003 耐腐蚀的包层钢厚板、薄板及带材规格5页ASTM A264-2003 不锈铬镍包层钢厚板、薄板及带材规格5页ASTM A265-2003 镍和镍基合金包层钢厚板规格6页ASTM A266/A266M-2003a 压力容器部件用碳素钢锻件规格4页ASTM A268/A268M-2005a 通用无缝及焊接铁素体和马氏体不锈钢管规格7页ASTM A269-2007 通用无缝奥氏体不锈钢管和焊接奥氏体不锈钢管的规格6页ASTM A27/A27M-2005 通用碳素钢铸件规格4页ASTM A270-2003a 卫生设备用无缝和奥氏体不锈钢管规格6页ASTM A275/A275M-2006 钢锻件的磁粉检查试验方法7页ASTM A276-2006 不锈钢棒材和型材规格7页ASTM A278/A278M-2001(2006) 最高温度为650°F（350℃）下承压部件用灰口铸铁件规格4页ASTM A283/A283M-2003 低和中等抗张强度的碳素钢厚板规格2页ASTM A285/A285M-2003 压力容器用低和中等抗张强度的碳素钢厚板规格3页ASTM A288-1991(2003) 涡轮发电机磁性扣环用碳素钢及合金钢锻件规格2页ASTM A289/A289M-1997(2003) 发动机非磁性扣环用合金钢锻件规格3页ASTM A29/A29M-2005 热锻碳素钢及与合金钢棒的一般要求规格16页ASTM A290/A290M-2005 减速装置环形物用碳钢和合金钢锻件规格4页ASTM A291/A291M-2005 减速装置小齿轮、齿轮及轴用碳钢和不锈钢锻件规格4页ASTM A295/A295M-2005 高碳抗摩擦轴承钢规格4页ASTM A297/A297M-2007 一般用耐热铬铁与镍铬铁合金钢铸件规格4页ASTM A299/A299M-2004 压力容器用锰硅碳钢厚板规格3页ASTM A302/A302M-2003 压力容器用锰钼及锰钼镍合金钢厚板规格3页ASTM A304-2005e2 须符合端部淬火硬度要求的碳钢与合金钢棒材规格50页ASTM A307-2004e1 抗拉强度为60000PSI的碳素钢螺栓和柱头螺栓的规格6页ASTM A308/A308M-2006 热浸法镀锡（铅锡合金）薄钢板规格5页ASTM A309-2001 用三点试验法测定长镀铅锡薄钢板镀层的重量及成份的方法6页ASTM A311/A311M-2004 压力容器用钢铆钉和铆钉用钢棒规格4页ASTM A312/A312M-2006 无缝焊接冷加工奥氏体不锈钢管规格11页ASTM A31-2004e1 压力容器钢铆钉和铆钉用棒材规格4页ASTM A313/A313M-2003 不锈钢弹簧钢丝规格7页ASTM A314-1997(2002) 锻造用不锈及耐热钢坯及钢棒规格3页ASTM A319-1971(2006) 非承压部件用暴露在高温下灰铸铁件规格2页ASTM A320/A320M-2007 低温用合金钢和不锈钢螺栓材料规格8页ASTM A3-2001(2006) 低、中、高碳素钢(未经热处理的)连接板规格3页ASTM A322-2006 标准级合金钢棒规格4页ASTM A323-2005 硼铁合金规格2页ASTM A324-1973(2004) 钛铁规格2页ASTM A325-2006 经热处理的最小抗拉强度为120/105 ksi的结构用钢螺栓规格8页ASTM A325M-2005 最小抗拉强度为830 MPa的热处理结构钢螺栓规格（公制）7页ASTM A327-1991(2006) 铸铁冲击试验的试验方法4页ASTM A327M-1991(2006) 铸铁冲击试验的试验方法（米制）3页ASTM A328/A328M-2007 钢板桩规格2页ASTM A333/A333M-2005 低温用无缝与焊接钢管规格7页ASTM A334/A334M-2004a 低温用无缝与焊接碳素合金钢管钢管规格6页ASTM A335/A335M-2006 高温用无缝铁素体合金钢管规格10页ASTM A336/A336M-2006a 压力与高温部件用合金钢锻件规格8页ASTM A338-1984(2004) 铁路、船舶和其它重型设备在温度达650°F(345℃)时使用的可锻铸铁法兰、管件和阀门零件规格2页ASTM A34/A34M-2006 磁性材料取样和采购测试规程4页ASTM A340-2003a 与磁性试验有关的符号和定义的标准术语16页ASTM A341/A341M-2000(2005) 使用直流磁导计和冲击强力试验方法对材料的直流磁性能的试验方法12页ASTM A342/A342M-2004 弱磁性材料磁导率的测试方法5页ASTM A343/A343M-2003 使用瓦特表-安培表-电压表方法和25cm爱泼斯坦试验构架的材料交流电磁性的试验方法16页ASTM A345-2004 磁性材料用平轧电工用钢规格4页ASTM A348/A348M-2005 用瓦特计--安培计--伏特计法、100-10000赫兹和25cm爱泼斯坦框测定材料交流磁性能的试验方法10页ASTM A350/A350M-2004a 管道部件用切口韧性试验要求的碳素钢与低合金钢锻件规格8页ASTM A351/A351M-2006 承压零件用奥氏体、奥氏体-铁素体(复合)钢铸件规格5页ASTM A352/A352M-2006 低温受压零件用铁素体和马氏体钢铸件规格5页ASTM A353/A353M-2004 压力容器用经二次正火及回火处理的含9%镍的合金钢厚板规格3页ASTM A354-2004e1 淬火和回火合金钢螺栓、双头螺栓和其它外螺纹紧固件规格7页ASTM A355-1989(2006) 渗氮合金钢棒规格3页ASTM A356/A356M-2005 汽轮机用厚壁碳素钢、低合金钢和不锈钢钢铸件规格6页ASTM A358/A358M-2005 高温设备与通用设备用电熔焊奥氏体铬镍不锈钢管规格7页ASTM A36/A36M-2005 结构碳素钢规格4页ASTM A363-2003 地面架空线用镀锌钢丝绳规格3页ASTM A367-1960(2005) 铸铁冷冻测试的试验方法4页ASTM A368-1995a(2004) 不锈钢钢丝索规格3页ASTM A369/A369M-2006 高温用锻制和镗加工碳素钢管和铁素体合金钢管规格4页ASTM A370-2007 钢产品机械测试的试验方法及定义47页ASTM A372/A372M-2003 薄壁压力容器用碳素钢及合金钢锻件规格5页ASTM A376/A376M-2006 高温中心站用无缝奥氏体钢管规格7页ASTM A377-2003 球墨铸铁压力管规格2页ASTM A380-2006 不锈钢零件、设备及系统的清洁、除锈和钝化规程13页ASTM A381-1996(2005) 高压传输系统用金属弧焊钢管规格5页ASTM A384/A384M-2002 钢制组装件热浸镀锌时防翘曲和歪变的规程2页ASTM A385-2005 提供高质量镀锌层（热浸）的规程9页ASTM A387/A387M-2006a 压力容器用铬钼合金钢厚板规格6页ASTM A388/A388M-2007 大型钢锻件超声波检查规程8页ASTM A389/A389M-2003 适合高温受压部件用经特殊热处理的合金钢铸件规格3页ASTM A390-2006 家禽饲养用镀锌钢丝栅栏结构(六角形与直线形)规格4页ASTM A391/A391M-2001 合金钢链条规格3页ASTM A392-2006 镀锌钢丝制链环栅栏结构规格5页ASTM A394-2005e1 钢输电塔镀锌螺栓和裸螺栓规格7页ASTM A395/A395M-1999(2004) 高温用铁素体延性铁承压铸件规格8页ASTM A400-1969(2006) 根据钢棒成份及机械性能选择钢棒的推荐规程9页ASTM A401/A401M-2003 铬硅合金钢丝规格4页ASTM A403/A403M-2006 锻制奥氏体管不锈钢管配件规格7页ASTM A407-1993(2004) 冷拉螺旋型弹簧钢丝规格3页ASTM A409/A409M-2001(2005) 腐蚀或高温下使用的大直径奥氏体焊接钢管规格6页ASTM A411-2003 镀锌低碳钢铠装线规格3页ASTM A413/A413M-2001 碳素钢链条规格4页ASTM A414/A414M-2006 压力容器用碳素钢薄板规格4页ASTM A416/A416M-2006 预应力混凝土用无镀层七股钢绞线规格5页ASTM A417-1993(2004) 室内装饰弹簧装置用冷拉之字型、方型和正弦型钢丝规格3页ASTM A418/A418M-2005 涡轮机和发动机钢转子锻件超声波检验的试验方法8页ASTM A420/A420M-2007 低温用锻制碳素钢和合金钢管配件规格6页ASTM A421/A421M-2005 预应力混凝土用无镀层应力消失钢丝规格4页ASTM A423/A423M-1995(2004) 无缝和电焊接低合金钢管规格3页ASTM A426/A426M-2005 高温用离心浇铸铁素体合金钢管规格5页ASTM A427-2002 冷轧与热轧用锻制合金钢轧辊规格3页ASTM A428/A428M-2006 铝覆铁或钢件覆层的重量(质量)的试验方法5页ASTM A434-2006 热轧与冷精轧经淬火及回火的合金钢棒规格3页ASTM A435/A435M-1990(2007) 中厚钢板直射束超声检测规格2页ASTM A436-1984(2006) 奥氏体灰口铁铸件规格6页ASTM A437/A437M-2006 高温用经特殊热处理的涡轮型合金钢螺栓材料规格3页ASTM A439-1983(2004) 奥氏体球墨铸铁铸件规格6页ASTM A447/A447M-1993(2003) 高温用镍铬铁合金钢铸件(25-12级)规格4页ASTM A449-2004be1 经热处理、最小抗拉强度为120/105/90 ksi的通用钢制六角螺丝、螺栓和柱螺栓规格7页ASTM A450/A450M-2004a 碳素钢管、铁素体合金钢管及奥氏体合金钢管一般要求规格10页ASTM A451/A451M-2006 高温用离心浇铸奥氏体钢管规格4页ASTM A453/A453M-2004 具有同奥氏体钢相类似膨胀系数的耐高温螺栓材料规格6页ASTM A455/A455M-2003 压力容器用高强度锰碳钢中厚板规格2页ASTM A456/A456M-1999(2003) 大曲轴锻件磁粉探伤规格4页ASTM A459-1997(2003) 镀锌扁钢铠装带规格3页ASTM A460-1994(2004)e1 包铜钢丝绳规格3页ASTM A463/A463M-2006 热浸法铝覆层薄钢板规格7页ASTM A466/A466M-2001 非焊接碳素钢链规格5页ASTM A467/A467M-2001(2006) 机器链和盘旋链规格4页ASTM A469/A469M-2007 发电机转子用经真空处理钢锻件的规格4页ASTM A47/A47M-1999(2004) 铁素体可锻铸铁铁铸件规格5页ASTM A470/A470M-2005e1 涡轮机转子和轴用经真空处理的碳钢和合金钢锻件规格8页ASTM A471-2006 涡轮机转子盘和叶轮用经真空处理的合金钢锻件规格6页ASTM A472/A472M-2005 汽轮机轴和转子锻件热稳定性的试验方法3页ASTM A473-2001 不锈钢及耐热钢锻件规格5页ASTM A474-2003 镀铝钢丝绳规格3页ASTM A476/A476M-2000(2005) 造纸厂干燥机轧辊用球墨铸件规格5页ASTM A478-1997(2002) 铬镍不锈钢和耐热钢制编织钢丝规格2页ASTM A479/A479M-2006a 锅炉及其它压力容器用不锈钢棒材和型材规格7页ASTM A48/A48M-2003 灰口铁铸件规格6页ASTM A480/A480M-2006b 平轧不锈钢及耐热钢中厚板、薄板及带材的一般要求规格24页ASTM A481-2005 铬金属规格2页ASTM A482-2005 硅铬铁合金规格2页ASTM A483-2004 硅锰合金规格2页ASTM A484/A484M-2006b 不锈钢棒材、方钢坯和锻件的通用要求规格13页ASTM A485-2003 高硬度减磨轴承钢规格4页ASTM A487/A487M-1993(2003) 受压钢铸件规格6页ASTM A488/A488M-2006 钢铸件焊接人员及工艺的鉴定规程18页ASTM A489-2004e1 碳素钢吊眼规格4页ASTM A490-2006 经热处理的最小抗拉强度为150 ksi的合金钢结构用螺栓规格6页ASTM A490M-2004ae1 结构钢接头用10.9 和10.9.3级高强度钢螺栓规格（公制）6页ASTM A491-2003 经热处理的碳素钢连接板规格5页ASTM A49-2001(2006) 热处理碳钢铁连接杆、微合金连接杆和锻造碳素钢异形连接杆规格3页ASTM A492-1995(2004) 耐热不锈钢丝绳用钢丝规格2页ASTM A493-1995(2004) 冷镦和冷锻不锈钢和耐热钢丝及钢丝棒规格3页ASTM A494/A494M-2005 镍及镍合金铸件规格7页ASTM A495-2006 硅钙及硅锰钙合金规格2页ASTM A496/A496M-2005 混凝土钢筋用变形钢丝规格6页ASTM A497/A497M-2006e1 混凝土用异形焊接钢丝补强规格6页ASTM A498-2006 无缝与焊接碳素钢,铁素体与奥氏体合金钢制有整体散热片的换热器钢管规格3页ASTM A499-1989(2002) 用T型钢轨轧制的碳素钢棒材及型材的规格4页ASTM A500-2003a 结构用碳素钢冷成形圆截面和异形截面焊接钢管和无缝钢管规格5页ASTM A501-2007 热成型焊接碳钢结构管材和无缝碳钢结构管材规格8页ASTM A502-2003 钢结构铆钉规格(AASHTO No.M228) 4页ASTM A503/A503M-2001(2006) 锻造曲轴超声波检验规格3页ASTM A504/A504M-2007 锻制碳钢轮规格8页ASTM A505-2000(2005) 热轧及冷轧合金钢薄板和带材的一般要求规格11页ASTM A506-2005 热轧和冷轧合金钢及结构合金钢薄板与带材规格4页ASTM A507-2006 热轧和冷轧拉制合金钢薄板及带材规格4页ASTM A508/A508M-2005b 压力容器用淬火和回火真空处理碳素钢和合金钢锻件规格9页ASTM A510-2006 碳素钢盘条和粗圆钢丝的一般要求规格7页ASTM A510M-2006 碳素钢盘条和粗圆钢丝的一般要求规格(米制) 7页ASTM A511-2004 无缝不锈钢机械管系的规格8页ASTM A512-2006 冷拉对焊碳素钢机械管规格7页ASTM A513-2007 电阻焊碳素钢与合金钢机械管规格17页ASTM A514/A514M-2005 焊接用经回火与淬火的高屈服强度合金钢中厚板规格3页ASTM A515/A515M-2003 中温及高温压力容器用碳素钢中厚板规格3页ASTM A516/A516M-2006 中温及低温设备用压力容器碳素钢中厚板规格4页ASTM A517/A517M-2006 压力容器用经回火与淬火的高强度合金钢中厚板规格4页ASTM A518/A518M-1999(2003) 耐腐蚀高硅铸铁件规格5页ASTM A519-2006 无缝碳素钢与合金钢机械管系规格13页ASTM A521/A521M-2006 一般工业用闭式模锻模锻件规格9页ASTM A522/A522M-2007 低温工作用锻制或轧制含镍8%和9%的合金钢法兰、配件、阀门和零件的规格4页ASTM A523-1996(2005) 高压管型电缆通路用平头端无缝及电阻焊钢管规格5页ASTM A524-1996(2005) 环境温度和低温用无缝碳素钢管规格8页ASTM A529/A529M-2005 优质高强度碳锰结构钢规格3页ASTM A53/A53M-2006a 热浸镀锌黑钢焊接管及无缝管规格22页ASTM A530/A530M-2004a 特种碳素钢及合金钢管一般要求规格9页ASTM A531/A531M-1991(2006) 汽轮发电机钢挡圈的超声波检验规程5页ASTM A532/A532M-1993a(2003) 耐磨铸铁规格4页ASTM A533/A533M-1993(2004)e1 压力容器用经回火和淬的锰钼及锰钼镍合金钢中厚板规格4页ASTM A534-2004 耐磨轴承用渗碳钢规格4页ASTM A536-1984(2004) 球墨铸铁件规格6页ASTM A537/A537M-2006 压力容器用经热处理的碳锰硅钢中厚板规格4页ASTM A540/A540M-2006 专用合金钢螺栓连接材料规格8页ASTM A541/A541M-2005 压力容器部件用经淬火和回火的碳素钢及合金钢锻件规格6页ASTM A542/A542M-1999(2004)e1 压力容器用经淬火和回火的铬钼、铬钼钒和铬钼钒钛硼合金钢中厚板规格5页ASTM A543/A543M-1993(2004)e1 压力容器用经淬火和回火的镍铬钼合金钢厚板规格3页ASTM A550-2006 铌铁合金规格2页ASTM A551/A551M-2005 钢轮箍规格3页ASTM A553/A553M-2006 压力容器用经回火和淬火的含8%及9%镍的合金钢中厚板规格3页ASTM A554-2003 焊接的不锈钢机械管系规格6页ASTM A555/A555M-2005 不锈钢丝和盘条一般要求规格6页ASTM A556/A556M-1996(2005) 给水加热器冷拉无缝碳素钢管规格5页ASTM A560/A560M-2005 铬镍合金铸件规格3页ASTM A561-1971(2004) 工具钢棒材宏观组织腐蚀试验规程2页ASTM A562/A562M-2006 有玻璃涂层或扩散的金属涂层的压力容器用碳素钢和锰钛合金钢厚板规格2页ASTM A563-2004a 碳素钢和合金钢螺母规格(AASHTO M291) 8页ASTM A563M-2006 碳素钢和合金钢螺母规格(米制) 9页ASTM A564/A564M-2004 热锻及冷加工时效硬化不锈及耐热钢棒及型材规格8页ASTM A565/A565M-2005a 高温设备用马氏体不锈钢棒材规格4页ASTM A568/A568M-2006a 高强度低合金热轧和冷轧结构碳素钢薄板一般要求规格29页ASTM A571/A571M-2001(2006) 适用于低温的承压部件用奥氏体球墨铸铁铸件规格5页ASTM A572/A572M-2007 高强度低合金铬钒结构钢规格4页ASTM A573/A573M-2005 增强韧性的结构用碳素钢中厚板规格2页ASTM A574-2004e1 合金钢内六角螺钉规格8页ASTM A574M-2004e1 合金钢内六角螺钉规格(米制) 7页ASTM A575-1996(2002) 商品级碳素钢棒规格(M级) 2页ASTM A576-1990b(2006) 特级热锻碳素钢棒规格5页ASTM A577/A577M-1990(2007) 中厚钢板超声波斜射束检测规格3页ASTM A578/A578M-1996(2001) 直射束超声波检验专用的普通钢板和复合钢板规格5页ASTM A579/A579M-2004a 超强度合金钢锻件规格7页ASTM A580/A580M-2006 耐热不锈钢丝规格4页ASTM A581/A581M-1995b(2004) 易切高速切削用耐热不锈钢丝和钢丝棒规格3页ASTM A582/A582M-2005 易切削不锈钢棒规格3页ASTM A586-2004a 镀锌平行与螺旋钢丝结构索规格6页ASTM A587-1996(2005) 化学工业用电阻焊低碳素钢管规格6页ASTM A588/A588M-2005 4 in. (100 mm)厚屈服点最小为50 ksi /平方英寸(345 MPa)的高强度低合金结构钢规格3页ASTM A589/A589M-2006 无缝焊接碳钢水井管规格12页ASTM A592/A592M-2004 压力容器用经回火和淬火的高强度低合金钢锻制附件及零件规格3页ASTM A595/A595M-2006 结构用锥形低碳钢管或高强度低碳钢管规格5页ASTM A596/A596M-1995(2004) 使用冲击法和环状试样的材料直流磁性试验方法8页ASTM A597-1987(2004) 铸造工具钢规格2页ASTM A598/A598M-2002 磁放大器磁芯磁性的试验方法17页ASTM A599/A599M-2002 冷轧电解镀锡钢薄板规格3页ASTM A6/A6M-2007 轧制结构钢棒、薄板、中厚板和打板桩的一般要求规格59页ASTM A600-1992a(2004) 高速工具钢规格14页ASTM A601-2005 电解锰金属规格2页ASTM A602-1994(2004) 汽车用可锻铸铁件规格5页ASTM A603-1998(2003) 镀锌钢丝结构绳规格6页ASTM A604-1993(2003) 自耗电极再溶化钢棒与钢坯的宏观腐蚀试验方法14页ASTM A606-2004 高强度、低合金、热轧和冷轧且具有较好耐环境腐蚀性的钢、钢板及钢带规格3页ASTM A608/A608M-2006 高温承压设备用铁-铬-镍高合金离心铸造管规格6页ASTM A609/A609M-1991(2002) 碳素低合金马氏体不锈钢铸件的超声波检查规程9页ASTM A610-1979(2004) 铁合金尺寸测量用样品的取样及试验方法2页ASTM A612/A612M-2003 中温及低温压力容器用高强度碳素钢中厚板规格3页ASTM A615/A615M-2007 混凝土钢筋用变形及普通碳素钢棒材规格6页ASTM A618/A618M-2004 热成形焊接及无缝高强度低合金结构管材规格4页ASTM A623-2006a 锡轧制产品一般要求规格38页ASTM A623M-2006a 锡轧制产品的一般要求规格(米制) 25页ASTM A624/A624M-2003 一次压延的锡轧制产品和电镀锡薄板规格5页ASTM A625/A625M-2003 一次压延的锡轧制产品和未镀锡的黑钢板规格2页ASTM A626/A626M-2003 二次压延的锡轧制产品和电镀锡薄板规格5页ASTM A627-2003 用于安全用途的均质机床不易加工的钢棒规格11页ASTM A630-2003 测定电镀锡板锡镀层重量的试验方法8页ASTM A632-2004 普通无缝和焊接奥氏体不锈钢管(小直径)规格4页ASTM A633/A633M-2001(2006) 正火的高强度低合金结构钢规格3页ASTM A635/A635M-2006a 高强度低合金及具有经改进可成形性的高强度低合金热轧碳素钢薄板和带材及卷材通用要求规格10页ASTM A636-1976(2004) 氧化镍烧结块规格2页ASTM A638/A638M-2000(2004) 高温作业用沉淀硬化铁基超合金棒材、锻件和锻坯规格3页ASTM A640-1997(2002)e1 8字型电缆架设支架用镀锌钢丝绳规格3页ASTM A641/A641M-2003 镀锌碳素钢钢丝规格5页ASTM A644-2005 有关铁铸件的术语4页ASTM A645/A645M-2005 压力容器用经特殊热处理的5%镍合金钢中厚板规格4页ASTM A646/A646M-2006 航空器与航天器锻件用优质合金钢坯及坯段规格5页ASTM A648-2004a 预应力混凝土管用冷拔钢丝规格4页ASTM A649/A649M-2004 波纹纸机械用锻制钢辊规格4页ASTM A650/A650M-2003 二次压延的锡轧制品、黑钢板规格2页ASTM A65-2007 钢轨道道钉规格4页ASTM A653/A653M-2006a 热浸法镀锌或镀锌铁合金钢薄板规格13页ASTM A656/A656M-2005e1 具有经改进的可成形性的热轧结构钢、高强度低合金中厚板规格3页ASTM A657/A657M-2003 一次和二次压延的锡轧制产品及电镀覆铬未镀锡黑钢板的规格7页ASTM A659/A659M-2006 商业级热轧碳素钢薄板和带材(最大含碳量为0.16%-0.25%)规格3页ASTM A660-1996(2005) 高温下用离心铸造碳素钢管规格4页ASTM A662/A662M-2003 中低温作业用碳-锰-硅钢压力容器板规格3页ASTM A66-2007 钢螺纹道钉规格3页ASTM A663/A663M-1989(2006) 机械性能要求的商品级碳素钢棒规格(AASHTOM227/M227M) 3页ASTM A664-2006e1 ASTM规格中标准电工用钢等级的识别规程3页ASTM A666-2003 退火的或冷加工的奥氏体不锈钢厚钢板、带材、薄板和扁材规格7页ASTM A667/A667M-1987(2003) 离心铸造的双金属(灰色及白色铸铁)圆柱规格2页ASTM A668/A668M-2004 一般工业用碳素钢和合金钢锻件规格7页ASTM A671-2006 常温和较低温用电熔焊钢管规格7页ASTM A67-2000(2005) 低碳钢及高碳钢热加工连接板规格4页ASTM A672-2006 中温高压作业用电熔焊钢管规格7页ASTM A673/A673M-2007 结构钢冲击试验用取样方法规格5页ASTM A674-2005 水或其它液体用变性铸铁管聚乙烯套膜规格7页ASTM A675/A675M-2003e1 特级热锻碳素钢棒机械性能要求规格5页ASTM A677-2005e1 完全成品型无定向电工用钢规格6页ASTM A678/A678M-2005 结构用经回火和淬火的碳素钢和高强度低合金钢中厚板规格3页ASTM A679/A679M-2006 硬拔高抗拉强度钢丝规格4页ASTM A681-1994(2004) 工具钢合金规格14页ASTM A682/A682M-2005 冷轧高碳素钢带材一般要求规格8页ASTM A683-2005e1 半成品型非定向电工用钢规格5页ASTM A684/A684M-2006 冷轧高碳钢带材规格4页ASTM A686-1992(2004) 碳素工具钢规格12页ASTM A688/A688M-2004 给水加热器用奥氏体不锈钢焊接管规格7页ASTM A689-1997(2002) 弹簧用碳素钢及合金钢棒规格4页。

安全技术说明书页: 1/10 巴斯夫安全技术说明书按照GB/T 16483编制日期 / 本次修订: 18.10.2022版本: 4.1日期/上次修订: 20.07.2022上次版本: 4.0日期 / 首次编制: 03.12.2012产品: 佛玛特 MO NDW ACProduct: Foamaster® MO NDW AC(30574221/SDS_GEN_CN/ZH)印刷日期 30.10.20231. 化学品及企业标识佛玛特 MO NDW ACFoamaster® MO NDW AC推荐用途和限制用途: 涂料工业用原料或专职人使用, 墨水,清漆或涂料用添加剂, 消去泡沫公司:巴斯夫(中国)有限公司中国上海浦东江心沙路300号邮政编码 200137电话: +86 21 20391000传真号: +86 21 20394800E-mail地址: **********************紧急联络信息:巴斯夫紧急热线中心（中国）+86 21 5861-1199巴斯夫紧急热线中心（国际）:电话: +49 180 2273-112Company:BASF (China) Co., Ltd.300 Jiang Xin Sha RoadPu Dong Shanghai 200137, CHINA Telephone: +86 21 20391000Telefax number: +86 21 20394800E-mail address: ********************** Emergency information:Emergency Call Center (China):+86 21 5861-1199International emergency number: Telephone: +49 180 2273-1122. 危险性概述巴斯夫安全技术说明书日期 / 本次修订: 18.10.2022版本: 4.1产品: 佛玛特 MO NDW ACProduct: Foamaster® MO NDW AC(30574221/SDS_GEN_CN/ZH)印刷日期 30.10.2023标签要素和警示性说明:根据GHS标准，该产品不需要添加危险警示标签其它危害但是不至于归入分类:注意有关存储和操作的规定或注解，无已知特殊危害。

无线电法:1950年5月02日电玩具现行有效该法由总务省颁布，适用于使用无线电的玩具，如无线电遥控玩具。

查看消费品安全法:童车、儿童秋千、滑道、爬杆等现行有效该法由日本消费品安全协会制定。

适用于童车（儿童自行车、儿童三轮车、婴儿推车、儿童学步车）及学前儿童玩耍的秋千，滑道，爬杆等。

自选性加贴SG标识。

查看有效利用资源法令:2001年4月所有玩具的包装现行有效适用于某些特殊包装（如纸和塑料被用作单体商品包装材料的，或用作标签、外包装，或别的用途的）。

查看日本玩具主要标准标准名称生效日期适用范围时效性备注动态信息ST 2002:玩具安全标准2002年所有玩具现行有效玩具产品满足该标准要求后，即可自愿加贴ST玩具安全标志，表示产品符合日本玩具安全标准要求，可以查看关的篇章有：47CFR 15和47CFR 95FMVSS 213:儿童约束系统Standard No. 213；Child restraintsystems. 汽车儿童安全座椅等机动车儿童约束系统现行有效该法规规定了汽车用儿童约束系统即汽车儿童安全座椅的安全要求。

FMVSS美国联邦机动车安全标准的英文缩写，它是美国汽车技术法规的核心内容。

FMVSS由美国运输部（DOT）所属的美国国家公路交通安全管理局（NHTSA）根据美国《国家交通及机动车安全法》负责制定实施。

它们被收录在美国联邦法规集第49篇的第571章查看联邦制定中的法规:美国正在制定的法规信息查看各州新法规:美国各州新法规动态信息查看美国玩具主要标准标准名称生效适用范时效性备注动态信repealing Directive 91/157/EEC2010/376/EU:关于根据2001/95/EC制定5类儿童睡房常见用品的安全规定的决议2010年7月6日婴儿床垫、儿童睡袋、婴儿床围垫、婴儿吊床和儿童羽绒被现行有效由欧洲委员会根据一般产品安全指令2001/95/EC订立具体规定，要求欧盟的标准化机构制订协调标准，以减少和5类儿童睡房常见用品有关的风险。

美国防护服检测怎么做？防护服办理标准
防护服种类包括消防防护服、工业用防护服、医疗款防护服、军用防护服和特殊人群使用防护服。

防护服主要应用于消防、军工、船舶、石油、化工、喷漆、清洗消毒、实验室等行业与部门。

美国防护服检测标准：
ASTM F903:2018 防护服用材料耐液体渗透性的标准试验方法
ASTM F1670/F1670M:2017a 防护服材料抗人工合成血渗透的标准试验方法ASTM F1671/F1671M:2013用Phi-x174噬菌体渗透作为试验系统的血源性病原体对防护服使用的抗渗透材料用标准试验方法
ASTM F2878:2019 防护服材料抗皮下穿刺的标准试验方法
ASTM F3050:2017 防护服和设备合格评定标准指南
ASTM F1670:2008 防护服使用材料抗人造血液透过特性的标准试验方法
ASTM F3352:2019 医疗设施用隔离服的标准规范
ANSI/AAMT PB70:2012 医疗保健设施中使用的防护服和防护布的液体阻挡层性能和分类
NFPA 1999:2018 急救医疗手术用防护服的标准
办理防护服检测流程：
1、项目申请——向检测机构监管递交申请。

2、资料准备——根据要求，企业准备好相关的认证文件。

3、产品测试——企业将待测样品寄到实验室进行测试。

4、编制报告——认证工程师根据合格的检测数据，编写报告。

5、递交审核——工程师将完整的报告进行审核。

6、签发证书——报告审核无误后，颁发证书。

HR4040铅检测 HR4040邻苯检测H.R.4040简介H.R.4040是美国生效消费品安全改进法案的习惯简称，并于2008年8月14日由总统布什正式签署为法律。

HR4040法例旨在加强进口消费品的安全，但可能对有关产品进入美国造成额外障碍，最终令出口商更难对美国输出产品，成本也会有所增加。

出口商须留意法例内各项规定的生效日期，该法案除了对儿童产品中铅含量的要求更为严格外，还对玩具和儿童护理用品中的有害物质邻苯二甲酸盐的含量做出新的规定。

此外，该法案还要求建立消费品安全公共数据库，以及要求某些儿童产品在被进口到美国前必须有获该委员会认可的独立第三方实验室出具的测试报告。

了解其他相关及检测请进个人主页测试要求HR4040针对某些儿童产品的强制第三方测试要求：法规生效90天后起（2008年11月12日），儿童产品的制造商和自有品牌商必须—-将产品送交有资格的独立第三方检测机构进行相关测试—-出具证书，证明产品符合适用的标准或法规—-具体要强制的产品信息、测试机构要求和时间要求，请关注EBO相关的技术文件更新标签要求儿童产品可追溯标签的要求：法规生效1年后起（2009年8月14日），儿童产品的制造商必须在其产品及相关包装上加贴永久性清晰醒目的标志，使消费者可以辨别和确定制造商的名称、生产日期和产地，以及其他相关生产信息，从而确保产品的可追溯性。

除非该产品符合该法规或标准适用的安全要求或标准，严禁消费品广告或所述产品的标签及包装包含消费品安全法规或自愿性消费品安全标准方面的指称信息。

HR4040实施HR4040法案对不同时间段产品中铅和邻苯二甲酸盐的限制规定如下：2008年11月12日受任何消费品安全委员会标准规限的产品的每家生产商，均须发出证明书，列明适用于其产品的各项消费品安全委员会规例，并表明其产品(根据适当测试)符合所有规例。

2009年2月10日HR4040规定禁售任何对象为12岁或以下儿童、按重量计含铅量超过百万分之六百(600ppm)的产品。

BS EN ISO 13982-1 ＆ 2 ： 2004 -第5类防护服BS EN的ISO 13982-1 ： 2004提供对固体颗粒的防护服性能要求的化学防护服提供保护的全面身体对空气固体颗粒（ 5型服装）•产品必须符合EN340 ： 2003本标准规定了一般要求防护衣物即材料不得已知会造成皮肤刺激或产生任何不利影响健康。

这也细节服装尺寸，标签等测试要求的材料（织物）材料的类型5服装进行测试，以便下面的性能;EN14325 ： 2004年详细的测试方法及性能分类的化学防护服装材料，接缝，组件。

4.4抗磨牢度4.5抗挠裂牢度4.6×抗挠裂牢度-30℃(可选)4.7 梯形撕裂牢度4.10 抗刺强度4.13阻燃牢度试验所需的接缝，加入和组件5防护服接缝应构造，以尽量减少或防止渗透的固体颗粒通过缝洞或其他接缝的组成部分。

接缝强度确定和划分按照EN14325 ： 2004年，第5.5和必须获得至少1级（ >30N ）。

试验方法中规定的条款5.5 EN ISO 13935-2测试抵抗泄漏气溶胶及固体颗粒- 5型防护服符合BS EN ISO 13982-2 ： 2004防护服使用的固体颗粒。

试验测定方法的向内渗漏的气溶胶微粒进入诉讼这种测试方法取代先前Aloxite粒子进行测试的情况下认可的EN测试方法内向渗漏的微粒。

这一试验是使用“真人” ，目的是模拟日常使用。

穿着的服装是根据制造商的指示，包括任何防护设备。

制造商的指示，还必须指定是否额外设备录制的西装，如何录像应该做的事。

至少5个测试项目都参与，每个测试2服。

因此，至少10件检验。

之前进入试验室测试主题（真人），请重复以下序列的运动3次在所谓“正常的工作速度” ;1 ）两膝盖跪地，前倾和地点双手在地板上四十五厘米的前面跪下来。

抓取着双手和膝盖上的距离超过3米和检索向后再次在同一距离2 ）双脚站与宽同肩，手。

提高武器直到它们平行楼前面的机构。

A S T M美国材料实验协会A B类标准大全TTA standardization office【TTA 5AB- TTAK 08- TTA 2C】A S T M美国材料实验协会A类标准大全？ASTM是美国材料实验协会（American Society of Testing Materials ）所制定的相关标准。

其中A类标准有：ASTM A918-06 要求标出每个表面镀层质量的用途用电解镀锌-镍合金钢板规格ASTM A920/A920M-02A 具有机械特性的微合金热锻特种钢棒规格ASTM A921/A921M-93(2005) 后热锻用微合金特种热锻钢棒规格ASTM A922-05?硅金属规格ASTM A923-06 测定锻造双联奥氏体/铁素体不锈钢不稳定金属间相的试验方法ASTM A924/A924M-07 热浸法镀金属镀层薄钢板通用要求规格ASTM A925-03?锌-5%铝-铈合金涂覆钢架空金属绞线规格ASTM A926-03 波纹金属管用涂覆材料抗磨性比较的试验方法ASTM A927/A927M-04?使用伏特计-电流计-瓦特计方法的环形铁芯交流磁性能的标准试验方法ASTM A928/A928M-05 用添加填料金属电熔焊接的铁素体/奥氏体(双联)不锈钢管电熔焊接规格ASTM A929/A929M-01(2007)波纹钢管用热浸金属镀层薄钢板规格ASTM A929/A929M-01(被ASTM A929/A929M-01(2007)代替)波纹钢管用热浸金属镀层薄钢板规格ASTM A930-03?涵管、雨水管和其它地下排水管用波纹金属管的寿命周期成本分析规程ASTM A931-96(2002) 钢丝绳和绞线拉伸试验的试验方法ASTM A932/A932M-01(2006)用瓦特计-安培计-伏特计和薄钢板样品测试在电源频率下非晶体材料交流磁性能的标准试验方法ASTM A933/A933M-07?加固用聚氯乙烯涂层钢丝和焊接钢丝网规格ASTM A934/A934M-04 环氧基树脂涂覆的预制钢筋规格ASTM A937/A937M-06?使用临界试验面测定绝缘涂层层间阻力的标准测试方法ASTM A938-04(被ASTM A938-04代替) 钢丝扭转试验的试验方法ASTM A939-07?圆柱形锻件镗孔表面超声波检验规程ASTM A939-96(2006)(被ASTM A939-07代替)圆柱形锻件镗孔表面超声波检验规程ASTM A940/A940M-06 涡轮机转轮用经局部热处理的真空处理合金钢锻件规格ASTM A941-06A 有关钢、不锈钢、相关合金和铁基合金的术语ASTM A942-95(2007)离心铸造白口铁/灰口铁双金属耐磨滚轮外壳标准规范ASTM A943/A943M-01(2005) 喷涂成形无缝奥氏体不锈钢管规格ASTM A944-05 用梁端试样比较钢筋与混凝土粘结强度的试验方法ASTM A945/A945M-06e1?带经改进可焊接性、可成形性及韧性的低碳限硫的高强度低合金结构钢薄板规格ASTM A946-95(2004) 耐腐蚀和耐热用铬、铬-镍及硅合金钢板规格ASTM A947M-95(2004) 有纹理不锈钢薄钢板（米制）规格ASTM A949/A949M-01(2005) 喷涂成形无缝铁素体/奥氏体不锈钢管规格ASTM A950/A950M-99(2003)(被ASTM A950/A950M-99(2007)代替)熔接环氧树脂涂层结构钢工字桩和打板桩规格ASTM A950/A950M-99(2007)熔接环氧树脂涂层结构钢工字桩和打板桩规格ASTM A951/A951M-06 砌筑嵌缝配筋用钢丝规格ASTM A952/A952M-02?锻造等级 80 和等级100 的钢提升组件及焊接连接杆规格ASTM A955/A955M-07(被ASTM A955/A955M-07a代替)混凝土加固用异形不锈钢钢筋及普通不锈钢钢筋规格ASTM A955/A955M-07a?混凝土加固用异形不锈钢钢筋及普通不锈钢钢筋规格ASTM A956-06 测试钢产品里氏硬度的试验方法ASTM A957/A957M-06 一般工业用钢和合金熔模铸件通用要求规格ASTM A958-00(2006)类似于锻造等级的碳素钢和合金钢铸件拉伸要求及化学要求的规格ASTM A959-04?规定锻造不锈钢统一标准等级成份的指南ASTM A960/A960M-07 锻制钢管管件通用要求规格ASTM A961/A961M-07 管道设备用钢法兰、锻制配件、阀门和部件的普通要求ASTM A962/A962M-07(被ASTM A962/A962M-07a代替)低温至蠕变任何温度范围下用钢紧固件或紧固件材料或两者的通用要求规格ASTM A962/A962M-07a?低温至蠕变任何温度范围下用钢紧固件或紧固件材料或两者的通用要求规格ASTM A964/A964M-03?波纹钢箱形涵洞规格ASTM A965/A965M-06A 压力和高温部件用奥氏体钢锻件规格ASTM A966/A966M-07?使用交流电的钢锻件磁粉探伤试验方法ASTM A966/A966M-96(2006)(被ASTM A966/A966M-07代替)使用交流电的钢锻件磁粉探伤试验方法ASTM A967-05(被ASTM A967-05e1代替) 不锈钢部件化学钝化处理规格ASTM A967-05e1?不锈钢部件化学钝化处理规格ASTM A968/A968M-96(2001) 腐蚀和耐热用铬、铬-镍和硅合金钢棒及形状的规格ASTM A970/A970M-06 混凝土加固用撑帽式钢筋规格ASTM A971/A971M-05?测量平轧电工用钢卷材边缘锥度和凸顶的试验方法ASTM A972/A972M-00(2004)熔合的环氧涂层钢管桩规格ASTM A973/A973M-01 等级100的合金钢链规格ASTM A974-97(2003)焊接钢丝围栅石笼和石笼钢筋网（金属镀层或聚氯乙烯涂敷）规格ASTM A975-97(2003) 双层扭曲六边形网眼筐和护坡钢筋网（金属镀层钢丝或带聚氯乙烯(PVC)敷层的金属镀层钢丝）规格ASTM A976-03?按照成份、相对绝缘能力及用途对绝缘涂层进行分类方法ASTM A977/A977M-02?用磁滞曲线图测定高矫顽力永久磁性材料磁性的标准试验方法ASTM A978/A978M-97(2002)e1?自流式生活污水管、雨水管和其他专用设施用预涂层及聚乙烯衬里复合肋式钢管规格ASTM A979/A979M-03 安装在野外波纹钢结构内的混凝土路面和衬层规格ASTM A980-97(2003) 超高强度冷轧碳素钢薄板ASTM A981-97(2002)(被ASTM A981-97(2007)代替) 评定预应力地锚中用等级270未镀敷的 mm in.)直径钢绞线结合强度的试验方法ASTM A981-97(2007) 评定加预应力地锚使用的270号、直径为毫米英寸)加预应力连铸钢坯结合强度的标准试验方法ASTM A982/A982M-05?压缩机与轮机翼用不锈钢锻件规格ASTM A983/A983M-06 中速柴油机连续晶粒流动锻造碳素及合金钢曲轴规格ASTM A984/A984M-03 电阻焊接干线用平端黑钢管规格ASTM A985/A985M-04A 承压部件用钢围模料铸件通用要求规格ASTM A986/A986M-01(2006)连续晶粒流动曲轴锻件磁粉探伤规格ASTM A987-05?测量锡轧制成品形状性能的试验方法ASTM A988/A988M-05 高温设备用热等静压不锈钢法兰、配件、阀门和部件规格ASTM A989/A989M-05?高温设备用热等静压合金钢法兰、配件、阀门和部件规格ASTM A990-06?腐蚀环境下保压部件控制用铁-镍-铬及镍合金铸件规格ASTM A99-03?锰铁规格ASTM A991/A991M-98(2004) 测量热处理钢产品用炉温度均匀性的试验方法ASTM A992/A992M-06A 结构钢形状规格ASTM A994-05?钢、不锈钢和相关合金产品规格的编写程序及格式的指南ASTM A995/A995M-98(2003) 承压部件用奥氏体-铁素体（双联）不锈钢铸件规格ASTM A996/A996M-06A 混凝土加固用轨道钢和轮轴钢异形棒材规格ASTM A997-07?熔模铸件表面目测验收标准规程ASTM A998/A998M-98(2003) 下水道和其他设施用工厂制波纹钢管管件钢筋的结构设计规程ASTM A999/A999M-04A 合金和不锈钢管通用要求规格ASTM A1007-07 钢丝绳用碳素钢丝规格ASTM A325-07 经热处理最小抗拉强度为830Mpa的热处理钢结构螺栓ASTM A938-07 钢丝扭转试验的试验方法ASTM美国材料实验协会B类标准大全？ASTM是美国材料实验协会（American Society of Testing Materials ）所制定的相关标准。

各国标准如下：其中EN是欧洲的标准，ASTM是美国的，BS是英国的，AS/ NZS是澳大利亚和新西兰的，SOR是加拿大的，GS是德国的产品类型相关标准婴儿车EN1888:2003+A1,A2,A3:2005_Prams, pushchairs, buggies and travel systems，ASTM F833:2010，BS7409 :1996，SOR 85/379 :2007，AS/ NZS 2088 :2009，GS14748:2007高脚椅ASTM F404:2008，EN 14988:2006_High chairs，BS5799:1986提篮、摇椅EN12790:2006_Reclined cradles，EN 1466:2004_Carry Cots and Stands 便携婴儿床安全测试，ASTM F2088:2003，ASTM F2194:2007，ASTM F 2050:2003_，ASTM F2167:2010_学步车ASTM F977:2007，EN1273:2005_Baby walking frames婴儿床ASTM F1169:2003_Full Size Baby Cribs 婴儿床安全测试(标准尺寸),ASTM F406:2009,ASTM F1821:2006_Standard Consumer Safety Specification for Toddler Beds 婴儿小床安全规范,EN12227:1999_Playpens for Domestic Use 室内婴儿围栏安全测试,EN716-1/2 :2008_Children's Cots and Folding Cots for Domestic Use 室内用童床安全测试，AS/NZS 2172:2003_Cots for Household Use - Safety Requirements 室内用童床安全测试，AS/NZS 2195:2010_Folding Cots - Safety Requirements 可折叠童床安全测试，BS 7423：1999_Specification or safety requirements for children`s travel cots of internal base length not less than 900mm 内部底长不小于900mm的儿童便携床的安全性能规格"，ASTM F966-00 _Full Size & Non-full Size Baby Cribs 婴儿床安全测试(非标准尺寸)16 CFR Part 1508 Requirements for Full-size Baby Cribs 婴儿床安全测试(标准尺寸)16 CFR Part 1509 Requirements for Non-full-size Baby Cribs 婴儿床安全测试(非标准尺寸) SOR 86-962：2007桌边餐椅EN 1272:1998_Table-mounted chairs，ASTM F1235:2003摇篮ASTM F2194:2007，EN1130:1996_Crib & Cradle for Domestic Use 家用便携婴儿床安全测试AS/NZS 4385:1996婴儿用多功能台（尿片台）ASTM F2388:06,EN12221:1999_Changing units门护栏ASTM F1004:2007EN1930:2000_Gates and safety barriers背巾ASTM F2236:2003,ASTM F2549-06EN13209-1:2004_Framed back carriers, EN13209-2:2005_Soft carriers其他ASTM F2012:2007EN 14036:2003BS 7972:2001_Safety requirements and test methods for children’s bed guards for d omestic use 家用婴儿床围栏的安全要求和测试方法"ASTM F1917-00_Standard Consumer Safety Performance Specification for Infant Bedding and Related Accessories_婴儿被垫和有关辅助品的标准使用安全性能规范"Child seats for cycles BS EN 14344:2004Children's harnesses, reins BS EN 13210:2004Children's pillows BS 4578:1998Cot bumpers BS 1877-10:1997Cutlery and feeding utensils for children BS EN 14372:2004Drinking equipment for children BS EN 14350:2004Dummies for babies and young children BS EN 1400:2002Dummy holders_ BS EN 12586:1999*Fireguards_BS 8423:2002Inflatable armbands worn as floatation aids_BS 7661:1993Mattresses for children's cots and prams BS 1877-10:1997Portable child-appealing luminaries_BS EN 60598:2-10Safety of children's clothing_BS EN 14682:2004Safety of toys_BS EN 71* Products that are currently under review and the date may change (as of May 2007)BS EN 1047-1-1997 保险贮藏组合家具.耐火试验方法和分类.数据库BS EN 1021-2-2006 家具.装饰家具着火性的评估.火源:等同于火柴的煤气火焰BS EN 1021-2-1994 家具.装饰家具着火性的评估.火源:等同于火柴的煤气火焰BS EN 1021-1-2006 家具.装饰家具着火性的评估.火源:燃着的香烟BS EN 1021-1-1994 家具.装饰家具着火性的评估.火源:燃着的香烟BS 7972-2001 家庭使用床护栏板安全要求和试验方法BS 6222-5-1995 家用厨房设备.一套半岛状厨房用具、一套岛状厨房用具和早餐BS3962-6-1980(R2002)木制家具精整的试验方法.第6部分:耐机械损伤性的评定BS3962-5-1980(R2002)木制家具精整的试验方法.第5部分:表面耐冷凝油和脂肪性的BS3962-1-1980(R2002)木制家具精整的试验方法.用85°角的镜面光泽测量作低角度BIFMA PD-1-2004 行业定义BIFMA G1-2002 办公用视频家具的人类工效学原理ASTM PS125-2001 消费者用换尿布台暂行消费者安全规范ASTM F966-2000 标准尺寸和非标准尺寸婴儿围栏角柱延伸段的消费者安全规格ASTM F404-2008 高脚椅的安全使用规格ASTM F2613-2007 儿童折叠椅的消费者安全规格ASTM F1917-2008 幼儿寝具和相关附件的消费者安全规范ASTM F1550-2005 通过小型耗氧热量计测定教养院用床垫或家具的组件或合成物遭标准名称EN 1725-1998_家用家具床和床垫安全要求和试验方法英文名称Domestic furniture - Beds and mattresses - Safety requirements and test methods采用标准DIN EN 1725 (1998-02), EQV*BS EN 1725 (1998-06-15/BSI), EQV*BS EN 1725 (1998-06-15), IDT*NF D64-001 (1998-03-01/AFNOR), EQV*NF D64-001 (1998-03-01), IDT*SN EN 1725 (1999), EQV*OENORM EN 1725 (1998-03-01), IDTBRC标准属性：体系认证适用范围：消费品适用地区：欧洲英国零售商协会（BRC British Retail Consortium）是一个重要的国际性贸易协会，其成员包括大型的跨国连锁零售企业、百货商场、城镇店铺、网络卖场等各类零售商，涉及产品种类非常广泛。

山西金硕源环境检测有限公司ShanXi JinShuoYuan Environmental testing Co., Ltd崂应2050 型环境空气综合采样器操作及维护作业指导书发布日期：2020.02.14有效版本：第2020 版第 1 次修订受控状态：受控受控号：编制人：审核人：批准人：修订页注：修订页用修订表的形式说明质量手册各部分修订状态。

受控质量手册的持有者应负责在收到修订页后立即将旧页换下。

1目的为了规范崂应2050 型环境空气综合采样器（以下简称仪器）的使用及维护，使仪器保持良好的运行状态。

2适用范围适用于环境空气中氟化物、总悬浮微粒（TSP）、可吸入微粒（PM10 或PM2.5）和气态污染物的样品采集及无组织废气中颗粒物和气态污染物样品的采集。

3职责3.1采样员3.1.1按照本作业指导书正确操作仪器。

3.2仪器管理员3.2.1负责仪器操作及维护作业指导书的制定；3.2.2负责仪器的日常维护及保养。

3.3技术负责人3.3.1负责仪器操作及维护规程的审核和批准。

3.4资料管理员3.4.1负责仪器操作及维护作业指导书等资料的归档及保存。

4仪器性能4.1 主要技术指标4.2工作条件4.5.1工作电源：AC （220 ±22） V，50Hz；4.5.2环境温度：（-20～45）℃；4.5.3环境湿度：（0～85）%RH；4.5.4电源接地线应良好接地；4.5.5野外工作时，应有防雨、雪、尘以及日光暴晒等侵袭的措施。

5使用方法5.1采样前准备5.1.1检查TSP/氟化物采样头配件是否齐全、配套，如下图所示，将TSP/氟化物采样滤膜装进TSP/PM10/PM2.5/氟化物采样头里面并正确组装采样头，再将其拧紧在采样器上1. TSP 切割头2.硅胶垫圈3.PM10喷嘴体4.O 型密封圈5.捕集板6.O型密封圈7. PM10 联接环8. 硅胶垫圈9.PM2.5 喷嘴体10.O 型密封圈11.捕集板12.O 型密封圈13. PM2.5 联接环14. 硅胶垫圈15.托网架16.滤膜17.托网18.密封垫19.下锥体TSP/PM10/PM2.5 （PM2.5 选配）采样头安装拆卸示意图注 1 ：安装滤膜时，滤膜的毛面应正对气流的方向。

纤·标准论坛Fiber · Standard Forum引言婴幼儿背带产品是一种符合人体工学的婴儿用品。

这类产品肩带和腰带比较宽，容易分担孩子的重量；有的产品设计了可拆卸头帽，这样不仅可以起到保护婴幼儿脑袋的作用，而且还可以保暖、遮阳。

除此之外，使用婴幼儿背带，既可以解放看护者的双手，便于休息放松或处理其他事情，也能开阔孩子的视野，使其有更多的机会接触周围的事物，同时也促婴幼儿生理、心智、交际及感情等的发展。

因此，使用婴幼儿背带成为年轻父母亲子出行的首选。

在美国，大约有80%以上的父母在使用婴儿背带产品。

在我国，根据调查，中国使用婴儿背带的人群主要集中在80后的年轻一代父母，该人群主要追求时尚、新潮、方便、自由。

随着我国城镇化率进一步提升，以及我国政府全面实施的二孩政策，我国婴幼儿的数量正保持一定的增长速度。

因此，婴幼儿背带市场前景非常广阔。

但是，不正确地使用婴幼儿背带可能会影响其生长发育，严重时还可能危及生命。

同时，不符合要求的设计或材料质量不满足要求等都会对婴幼儿产生诸多安全隐患，影响其健康和安全[1-3]。

1 国外研究现状美国CPSIA(消费者安全改进法案)将婴幼儿背带产品归为耐用婴幼儿产品一类，该类产品限定5岁以下儿童使用[4]。

笔者通过查阅相关文献发现，国外将婴幼儿背带产品大致分为婴幼儿软背带（Soft Infant and Toddler Carriers）、吊带（Sling Carriers）、框架背包背带（Frame Child Carriers）和手持式婴儿背带（Hand-held Infant Carriers）四类[5]，如图1所示。

(a)软背带 (b)垫带 (c)框架式背包带 (d)手持式背带图1 婴幼儿背带产品分类国外发达国家对婴幼儿背带的安全问题十分重视，对产品上可能造成婴幼儿伤害的要求都进行了严格的规定。

截止到目前为止，国外涉及到婴幼儿背带的标准现行有效国内外婴幼儿背带产品安全性检测标准研究探析The Analysis and Research of Safety Testing Standards About Child Use and Care Articles-Baby Carriers at Home and Abroad文/李岚摘要：婴幼儿背带产品是一种符合人体工学的婴儿用品，随着其越来越受到年轻妈妈们的青睐，不符合要求的设计或材料质量不满足要求等都会对婴幼儿产生诸多安全隐患，将会影响其健康和安全。