高分子英语报告-超分子聚合物

高分子合成英语作文英文：Polymer synthesis is a fascinating field that involves the creation of large molecules by joining together smaller units called monomers. This process can be achieved through various methods, such as addition polymerization, condensation polymerization, and ring-opening polymerization. Each method has its own unique characteristics and applications, making polymer synthesisa versatile and important area of study in chemistry and materials science.For example, addition polymerization involves the repeated addition of monomers to form a long chain polymer. This is commonly seen in the production of materials like polyethylene and polypropylene, which are used in a wide range of everyday products such as plastic bags, containers, and packaging materials. On the other hand, condensation polymerization involves the elimination of small molecules,such as water or alcohol, during the polymerization process. This method is used to produce materials like nylon and polyester, which are commonly found in clothing, carpets, and other textile products.Polymer synthesis also plays a crucial role in the development of advanced materials with unique properties. For instance, the synthesis of conductive polymers has ledto the creation of flexible and lightweight electronics, such as organic light-emitting diodes (OLEDs) and flexible solar cells. Additionally, the development of biodegradable polymers has contributed to the reduction of plastic waste and environmental pollution.中文：高分子合成是一个迷人的领域，它涉及通过将称为单体的较小单元连接在一起来创建大分子。

高分子英语课文翻译集团标准化小组：[VVOPPT-JOPP28-JPPTL98-LOPPNN]unit1all polymers are built up from bonding together a single kind of repeating unit. At the other extreme ,protein molecules are polyamides in which n amino acide repeat units are bonded together. Although we might still call n the degree of polymerization in this case, it is less usefull,since an amino acid unit might be any one of some 20-odd molecules that are found in proteins. In this case the molecular weight itself,rather than the degree of the polymerization ,is generally used to describe the molecule. When the actual content of individual amino acids is known,it is their sequence that is of special interest to biochemists and molecular biologists.并不是所有的聚合物都是由一个重复单元链接在一起而形成的。

在另一个极端的情形中，蛋白质分子是由n个氨基酸重复单元链接在一起形成的聚酰胺。

尽管在这个例子中，我们也许仍然把n称为聚合度，但是没有意义，因为一个氨基酸单元也许是在蛋白质中找到的20多个分子中的任意一个。

高分子专业英语:高分子macromolecule, polymer 又称"大分子"。

超高分子supra polymer 天然高分子natural polymer 无机高分子inorganic polymer 有机高分子organic polymer 无机-有机高分子inorganic organic polymer 金属有机聚合物organometallic polymer元素高分子element polymer 高聚物high polymer 聚合物polymer 低聚物oligomer 曾用名"齐聚物二聚体dimer 三聚体trimer 调聚物telomer 预聚物prepolymer 均聚物homo polymer 无规聚合物random polymer 无规卷曲聚合物random coiling polymer 头-头聚合物head-to-head polymer 头-尾聚合物head-to-tail polymer 尾-尾聚合物tail-to-t ail polymer 反式有规聚合物transtactic polymer 顺式有规聚合物cistactic polymer 规整聚合物regular polymer 非规整聚合物irregular polymer 无规立构聚合物atactic po lymer 全同立构聚合物isotactic polymer 又称"等规聚合物"。

间同立构聚合物syndiotac tic polymer 又称"间规聚合物"。

杂同立构聚合物heterotactic polymer 又称"异规聚合物"。

有规立构聚合物stereoregular polymer, tactic polymer 又称"有规聚合物"。

苏型双全同立构聚合物threo-diisotactic polymer 苏型双间同立构聚合物threo-disyndiotactic poly mer 赤型双全同立构聚合物erythro-diisotactic polymer 赤型双间同立构聚合物erythro -disyndiotactic polymer 全同间同等量聚合物equitactic polymer 共聚物copolymer 二元共聚物binary copolymer 三元共聚物terpolymer 多元聚合物multipolymer 序列共聚物sequential copolymer 多层共聚物multilayer copolymer 多相聚合物multiphas e polymer 统计[结构]共聚物statistical copolymer 无规共聚物random copolymer 交替共聚物alternating copolymer 周期共聚物periodic copolymer 梯度共聚物gradient copolymer 嵌段共聚物block copolymer 又称"嵌段聚合物(block polymer)" 。

高分子材料英文Polymer Materials。

Polymer materials, also known as macromolecular materials, are a class of materials composed of macromolecules. They are widely used in various fields due to their excellent performance and diverse properties.Firstly, polymer materials have a wide range of applications in daily life. For example, plastics, as one of the most common polymer materials, are widely used in packaging, construction, transportation, and household products. In addition, polymer materials are also widely used in the medical field, such as medical equipment, drug delivery systems, and tissue engineering.Secondly, polymer materials have unique physical and chemical properties. They can be divided into thermoplastics and thermosetting plastics according to their thermal properties. Thermoplastics can be softened by heating and hardened by cooling, while thermosetting plastics can only be heated and shaped once, and then become insoluble and infusible. In addition, polymer materials also have excellent mechanical properties, electrical properties, and chemical resistance, which make them suitable for a wide range of applications.Furthermore, polymer materials have great potential for development. With the continuous advancement of science and technology, new polymer materials with special functions are constantly being developed. For example, conductive polymers have been widely used in the field of electronic devices, and shape memory polymers have been applied in the field of smart materials. Moreover, the development of biodegradable polymers and recyclable polymers has also attracted great attention in the context of environmental protection and sustainable development.In conclusion, polymer materials play an important role in modern society and have broad application prospects. With the continuous development of science and technology,it is believed that polymer materials will continue to make great contributions to human society and bring more convenience and benefits to people's lives.。

brush polymer coiling type polymer05.2 聚合与高分子化学反应vinylidene monomer 1,1-亚乙烯基单体，7偏［二］取代乙烯单体1,2-亚乙烯基单体，vinylene monomer81,2-二取代乙烯单体9 双烯单体，二烯单体diene monomer10 极性单体polar monomer11 非极性单体non polar monomer12 共轭单体conjugated monomer13 非共轭单体non conjugated monomer14 活化单体activated monomer15 官能单体functional monomer16 大分子单体macromer, macromonomer17 环状单体cyclic monomer18 共聚单体comonomer19 聚合［反应］polymerization20 均聚反应homopolymerization低聚反应，oligomerization21齐聚反应(曾用名)22 调聚反应telomerization23 自发聚合spontaneous polymerization24 预聚合prepolymerization25 后聚合post polymerization26 再聚合repolymerization27 铸塑聚合, 浇铸聚合cast polymerization28 链［式］聚合chain polymerization29 烯类聚合，乙烯基聚合vinyl polymerization30 双烯［类］聚合diene polymerization31 加［成］聚［合］addition polymerization32自由基聚合，游离基聚合(曾用名) free radical polymerization, radical polymerization33控制自由基聚合，可控自由基聚合controlled radical polymerization，CRP34 活性自由基聚合living radical polymerization35 原子转移自由基聚合atom transfer radical polymerization，ATRP36 反向原子转移自由基聚合reverse atom transfer radical polymerization，RATRP37可逆加成断裂链转移reversible addition fragmentation chaintransfer，RAFT38 氮氧[自由基]调控聚合nitroxide mediated polymerization39 稳定自由基聚合stable free radical polymerization，FRP40 自由基异构化聚合free radical isomerization polymerization41 自由基开环聚合radical ring opening polymerization42 氧化还原聚合redox polymerization43无活性端聚合，死端聚合(曾用名)dead end polymerization44 光［致］聚合photo polymerization45 光引发聚合light initiated polymerization46 光敏聚合photosensitized polymerization47 四中心聚合four center polymerization48 电荷转移聚合charge transfer polymerization49 辐射引发聚合radiation initiated polymerization50 热聚合thermal polymerization51 电解聚合electrolytic polymerization52 等离子体聚合plasma polymerization53 易位聚合metathesis polymerization54 开环易位聚合ring opening metathesis polymerization，ROMP55 精密聚合precision polymerization56 环化聚合cyclopolymerization57 拓扑化学聚合topochemical polymerization58 平衡聚合equilibrium polymerization59 离子［型］聚合ionic polymerization60 辐射离子聚合radiation ion polymerization61 离子对聚合ion pair polymerization62正离子聚合，阳离子聚合cationic polymerization63 碳正离子聚合carbenium ion polymerization,carbocationicpolymerization64 假正离子聚合pseudo cationic polymerization65 假正离子活［性］聚合pseudo cationic living polymerization66 活性正离子聚合living cationic polymerization67负离子聚合，阴离子聚合anionic polymerization68 碳负离子聚合carbanionic polymerization69 活性负离子聚合living anionic polymerization70 负离子环化聚合anionic cyclopolymerization71 负离子电化学聚合anionic electrochemical polymerization72 负离子异构化聚合anionic isomerization polymerization73 烯丙基聚合allylic polymerization74 活［性］聚合living polymerization75 两性离子聚合zwitterion polymerization76 齐格勒-纳塔聚合Ziegler Natta polymerization77 配位聚合coordination polymerization78 配位离子聚合coordinated ionic polymerization79 配位负离子聚合coordinated anionic polymerization80 配位正离子聚合coordinated cationic polymerization81 插入聚合insertion polymerization82定向聚合，立构规整聚合stereoregular polymerization, stereospecific polymerization83 有规立构聚合tactic polymerization84 全同立构聚合isospecific polymerization85 不对称诱导聚合asymmetric induction polymerization86 不对称选择性聚合asymmetric selective polymerization87 不对称立体选择性聚合asymmetric stereoselective polymerization88 对映［体］不对称聚合enantioasymmetric polymerization89 对映［体］对称聚合enantiosymmetric polymerization90 异构化聚合isomerization polymerization91 氢转移聚合hydrogen transfer polymerization92 基团转移聚合group transfer polymerization，GTP93 消除聚合elimination polymerization94 模板聚合matrix polymerization,templatepolymerization95 插层聚合intercalation polymerization96 无催化聚合uncatalyzed polymerization97 开环聚合ring opening polymerization98 活性开环聚合living ring opening polymerization99 不死的聚合immortal polymerization100 酶聚合作用enzymatic polymerization101 聚加成反应，polyaddition逐步加成聚合(曾用名)102 偶联聚合coupling polymerization103 序列聚合sequential polymerization104 闪发聚合，俗称暴聚flash polymerization105 氧化聚合oxidative polymerization106 氧化偶联聚合oxidative coupling polymerization107 逐步［增长］聚合step growth polymerization缩聚反应condensation polymerization，108polycondensation酯交换型聚合transesterification type polymerization, 109ester exchange polycondensation110 自催化缩聚autocatalytic polycondensation111 均相聚合homogeneous polymerization112 非均相聚合heterogeneous polymerization113 相转化聚合phase inversion polymerization114 本体聚合bulk polymerization, mass polymerization 115 固相聚合solid phase polymerization气相聚合gaseous polymerization,116gas phase polymerization117 吸附聚合adsorption polymerization118 溶液聚合solution polymerization119 沉淀聚合precipitation polymerization120 淤浆聚合slurry polymerization121 悬浮聚合suspension polymerization122 反相悬浮聚合reversed phase suspension polymerization 123 珠状聚合bead polymerization, pearl polymerization 124 分散聚合dispersion polymerization125 反相分散聚合inverse dispersion polymerization126 种子聚合seeding polymerization127 乳液聚合emulsion polymerization128 无乳化剂乳液聚合emulsifier free emulsion polymerization 129 反相乳液聚合inverse emulsion polymerization130 微乳液聚合micro emulsion polymerization131 连续聚合continuous polymerization132 半连续聚合semicontinuous polymerization133 分批聚合，间歇聚合batch polymerization134 原位聚合in situ polymerization135 均相缩聚homopolycondensation136 活化缩聚activated polycondensation137 熔融缩聚melt phase polycondensation138 固相缩聚solid phase polycondensation139 体型缩聚three dimensional polycondensation 140 界面聚合interfacial polymerization141 界面缩聚interfacial polycondensation142 环加成聚合cycloaddition polymerization143 环烯聚合cycloalkene polymerization144 环硅氧烷聚合cyclosiloxane polymerization145 引发剂initiator146 引发剂活性activity of initiator147 聚合催化剂polymerization catalyst148 自由基引发剂radical initiator149 偶氮［类］引发剂azo type initiator150 2,2′偶氮二异丁腈2,2'- azobisisobutyronitrile, AIBN151 过氧化苯甲酰benzoyl peroxide, BPO152 过硫酸盐引发剂persulphate initiator153 复合引发体系complex initiation system154 氧化还原引发剂redox initiator电荷转移复合物，charge transfer complex, CTC155电荷转移络合物156 聚合加速剂，聚合促进剂polymerization accelerator157 光敏引发剂photoinitiator158 双官能引发剂bifunctional initiator，difunctional initiator 159 三官能引发剂trifunctional initiator160 大分子引发剂macroinitiator161 引发-转移剂initiator transfer agent, inifer162 引发-转移-终止剂initiator transfer agent terminator, iniferter 163 光引发转移终止剂photoiniferter164 热引发转移终止剂thermoiniferter165 正离子催化剂cationic catalyst166 正离子引发剂cationic initiator167 负离子引发剂ionioic initiator168 共引发剂coinitiator169 烷基锂引发剂alkyllithium initiator170 负离子自由基引发剂anion radical initiator171 烯醇钠引发剂alfin initiator172 齐格勒-纳塔催化剂Ziegler Natta catalyst173 过渡金属催化剂transition metal catalyst174 双组分催化剂bicomponent catalyst175 后过渡金属催化剂late transition metal catalyst176 金属络合物催化剂metal complex catalyst177 ［二］茂金属催化剂metallocene catalyst178 甲基铝氧烷methylaluminoxane, MAO179μ氧桥双金属烷氧化物催化剂bimetallic μ-oxo alkoxides catalyst180 双金属催化剂bimetallic catalyst 181 桥基茂金属bridged metallocene182限定几何构型茂金属催化剂constrained geometry metallocene catalyst183 均相茂金属催化剂homogeneous metallocene catalyst 184 链引发chain initiation185 热引发thermal initiation186 染料敏化光引发dye sensitized phtoinitiation187 电荷转移引发charge transfer initiation188 诱导期induction period189 引发剂效率initiator efficiency190 诱导分解induced decomposition191 再引发reinitiation192 链增长chain growth, chain propagation193 增长链端propagating chain end194 活性种reactive species195 活性中心active center196 持续自由基persistent radical197 聚合最高温度ceilling temperature of polymerization 198 链终止chain termination199 双分子终止bimolecular termination200 初级自由基终止primary radical termination201 扩散控制终止diffusion controlled termination202 歧化终止disproportionation termination203 偶合终止coupling termination204 单分子终止unimolecular termination205 自发终止spontaneous termination206 终止剂terminator207 链终止剂chain terminating agent208 假终止pseudotermination209 自发终止self termination210 自由基捕获剂radical scavenger211 旋转光闸法rotating sector method212 自由基寿命free radical lifetime213 凝胶效应gel effect214 自动加速效应autoacceleration effect215 链转移chain transfer216 链转移剂chain transfer agent217 尾咬转移backbitting transfer218 退化链转移degradation (degradative) chain transfer 219 加成断裂链转移［反应］addition fragmentation chain transfer 220 链转移常数chain transfer constant①缓聚作用retardation221②延迟作用222 阻聚作用inhibition223 缓聚剂retarder224 缓聚剂，阻滞剂retarding agent225 阻聚剂inhibitor226 封端［反应］end capping227 端基terminal group228 聚合动力学polymerization kinetics229 聚合热力学polymerization thermodynamics 230 聚合热heat of polymerization231 共聚合［反应］copolymerization232 二元共聚合binary copolymerization233 三元共聚合ternary copolymerization234 竞聚率reactivity ratio235 自由基共聚合radical copolymerization236 离子共聚合ionic copolymerization237 无规共聚合random copolymerization238 理想共聚合ideal copolymerization239 交替共聚合alternating copolymerization 240 恒［组］分共聚合azeotropic copolymerization 241 接枝共聚合graft copolymerization242 嵌段共聚合block copolymerization243 开环共聚合ring opening copolymerization 244 共聚合方程copolymerization equation245 共缩聚copolycondensation246 逐步共聚合step copolymerization247 同种增长homopropagation248 自增长self propagation249 交叉增长cross propagation250 前末端基效应penultimate effect251 交叉终止cross termination252 Q值Q value253 e值e value254 Q,e概念Q, e scheme255 序列长度分布sequence length distribution256 侧基反应reaction of pendant group257 扩链剂，链增长剂chain extender258 交联crosslinking259 化学交联chemical crosslinking260 自交联self crosslinking261 光交联photocrosslinking262 交联度degree of crosslinking263 硫化vulcanization264 固化curing265 硫［黄］硫化sulfur vulcanization266 促进硫化accelerated sulfur vulcanization 267 过氧化物交联peroxide crosslinking268 无规交联random crosslinking269 交联密度crosslinking density270 交联指数crosslinking index271 解聚depolymerization272 ①降解②退化degradation273 链断裂chain breaking274 解聚酶depolymerase275 细菌降解bacterial degradation276 生物降解biodegradation277 化学降解chemical degradation278 辐射降解radiation degradation279 断链降解chain scission degradation280 自由基链降解free radical chain degradation 281 无规降解random degradation282 水解降解hydrolytic degradation05.3 高分子物理化学与高分子物理21自由连接链freely-jointed chain22自由旋转链freely-rotating chain23蠕虫状链worm-like chain24柔性链flexible chain25链柔性chain flexibility26刚性链rigid chain27棒状链rodlike chain28链刚性chain rigidity29聚集aggregation30聚集体aggregate31凝聚、聚集coalescence32链缠结chain entanglement33凝聚缠结cohesional entanglement34物理缠结physical entanglement35拓扑缠结topological entanglement36凝聚相condensed phase37凝聚态condensed state38凝聚过程condensing process39临界聚集浓度critical aggregation concentration 40线团-球粒转换coil-globule transition41受限链confined chain42受限态confined state43物理交联physical crosslinking44统计线团statistical coil45等效链equivalent chain46统计链段statistical segment47链段chain segment48链构象chain conformation49无规线团模型random coil model50无规行走模型random walk model51自避随机行走模型self avoiding walk model52卷曲构象coiled conformation53高斯链Gaussian chain54无扰尺寸unperturbed dimension55扰动尺寸perturbed dimension56热力学等效球thermodynamically equivalent sphere 57近程分子内相互作用short-range intramolecular interaction 58远程分子内相互作用long-range intramolecular interaction 59链间相互作用interchain interaction60链间距interchain spacing61长程有序long range order62近程有序short range order63回转半径radius of gyration64末端间矢量end-to-end vector65链末端chain end66末端距end-to-end distance67无扰末端距unperturbed end-to-end distance68均方根末端距root-mean-square end-to-end distance 69伸直长度contour length70相关长度persistence length71主链；链骨架chain backbone72支链branch chain73链支化chain branching74短支链short-chain branch75长支链long-chain branch76支化系数branching index77支化密度branching density78支化度degree of branching79交联度degree of crosslinking80网络network81网络密度network density82溶胀swelling83平衡溶胀equilibrium swelling84分子组装，分子组合molecular assembly85自组装self assembly86微凝胶microgel87凝胶点gel point88可逆[性]凝胶reversible gel89溶胶-凝胶转化sol-gel transformation90临界胶束浓度critical micelle concentration，CMC91组成非均一性constitutional heterogenity, compositionalheterogenity92摩尔质量平均molar mass average 又称“分子量平均”93数均分子量number-average molecular weight,number-average molar mass94重均分子量weight-average molecular weight,weight-average molar mass95Z均分子量Z(Zaverage)-average molecular weight,Z-molar mass96黏均分子量viscosity-average molecular weight，viscosity-average molar mass97表观摩尔质量apparent molar mass98表观分子量apparent molecular weight99聚合度degree of polymerization100动力学链长kinetic chain length101单分散性monodispersity102临界分子量critical molecular weight103分子量分布molecular weight distribution，MWD104多分散性指数polydispersity index，PID105平均聚合度average degree of polymerization106质量分布函数mass distribution function107数量分布函数number distribution function108重量分布函数weight distribution function109舒尔茨-齐姆分布Schulz-Zimm distribution110最概然分布most probable distribution 曾用名“最可几分布”111对数正态分布logarithmic normal distribution 又称“对数正则分布”112聚合物溶液polymer solution113聚合物-溶剂相互作用polymer-solvent interaction114溶剂热力学性质thermodynamic quality of solvent115均方末端距mean square end to end distance116均方旋转半径mean square radius of gyration117θ温度theta temperature118θ态theta state119θ溶剂theta solvent120良溶剂good solvent121不良溶剂poor solvent122位力系数Virial coefficient 曾用名“维里系数”123排除体积excluded volume124溶胀因子expansion factor125溶胀度degree of swelling126弗洛里-哈金斯理论Flory-Huggins theory127哈金斯公式Huggins equation128哈金斯系数Huggins coefficient129χ(相互作用)参数χ-parameter130溶度参数solubility parameter131摩擦系数frictional coefficient132流体力学等效球hydrodynamically equivalent sphere133流体力学体积hydrodynamic volume134珠-棒模型bead-rod model135球-簧链模型ball-spring [chain] model136流动双折射flow birefringence, streaming birefringence 137动态光散射dynamic light scattering138小角激光光散射low angle laser light scattering139沉降平衡sedimentation equilibrium140沉降系数sedimentation coefficient141沉降速度法sedimentation velocity method142沉降平衡法sedimentation equilibrium method143相对黏度relative viscosity144相对黏度增量relative viscosity increment145黏度比viscosity ratio146黏数viscosity number147[乌氏]稀释黏度计[Ubbelohde] dilution viscometer148毛细管黏度计capillary viscometer149落球黏度计ball viscometer150落球黏度ball viscosity151本体黏度bulk viscosity152比浓黏度reduced viscosity153比浓对数黏度inherent viscosity, logarithmic viscositynumber154特性黏数intrinsic viscosity, limiting viscosity number 155黏度函数viscosity function156零切变速率黏度zero shear viscosity157端基分析analysis of end group158蒸气压渗透法vapor pressure osmometry, VPO159辐射的相干弹性散射coherent elastic scattering of radiation160折光指数增量refractive index increment161瑞利比Rayleigh ratio162超瑞利比excess Rayleigh ratio163粒子散射函数particle scattering function164粒子散射因子particle scattering factor165齐姆图Zimm plot166散射的非对称性dissymmetry of scattering167解偏振作用depolarization168分级fractionation169沉淀分级precipitation fractionation170萃取分级extraction fractionation171色谱分级chromatographic fractionation172柱分级column fractionation173洗脱分级，淋洗分级elution fractionation174热分级thermal fractionation175凝胶色谱法gel chromatography176摩尔质量排除极限molar mass exclusion limit177溶剂梯度洗脱色谱法solvent gradient [elution] chromatography 178分子量排除极限molecular weight exclusion limit179洗脱体积elution volume180普适标定universal calibration181加宽函数spreading function182链轴chain axis183等同周期identity period184链重复距离chain repeating distance185晶体折叠周期crystalline fold period186构象重复单元conformational repeating unit 187几何等效geometrical equivalence188螺旋链helix chain189构型无序configurational disorder190链取向无序chain orientational disorder191构象无序conformational disorder192锯齿链zigzag chain193双[股]螺旋double stranded helix194[分子]链大尺度取向global chain orientation195结晶聚合物crystalline polymer196半结晶聚合物semi-crystalline polymer197高分子晶体polymer crystal198高分子微晶polymer crystallite199结晶度degree of crystallinity, crystallinity 200高分子[异质]同晶现象macromolecular isomorphism 201聚合物形态学morphology of polymer202片晶lamella, lamellar crystal203轴晶axialite204树枝[状]晶体dendrite205纤维晶fibrous crystal206串晶结构shish-kebab structure207球晶spherulite208折叠链folded chain209链折叠chain folding210折叠表面fold surface211折叠面fold plane212折叠微区fold domain213相邻再入模型adjacent re-entry model 214接线板模型switchboard model215缨状微束模型fringed-micelle model 216折叠链晶体folded-chain crystal217平行链晶体parallel-chain crystal218伸展链晶体extended-chain crystal 219球状链晶体globular-chain crystal 220长周期long period221近程结构short-range structure222远程结构long-range structure223成核作用nucleation224分子成核作用molecular nucleation225阿夫拉米方程Avrami equation226主结晶primary crystallization 227后期结晶secondary crystallization 228外延结晶，附生结晶epitaxial crystallization 229外延晶体生长，附生晶epitaxial growth体生长230织构texture231液晶态liquid crystal state232溶致性液晶lyotopic liquid crystal 233热致性液晶thermotropic liquid crystal234热致性介晶thermotropic mesomorphism235近晶相液晶smectic liquid crystal236近晶中介相smectic mesophase237近晶相smectic phase238条带织构banded texture239环带球晶ringed spherulite240向列相nematic phase241盘状相discotic phase242解取向disorientation243分聚segregation244非晶相amorphous phase 曾用名“无定形相”245非晶区amorphous region246非晶态amorphous state247非晶取向amorphous orientation248链段运动segmental motion249亚稳态metastable state250相分离phase separation251亚稳相分离spinodal decomposition252bimodal decomposition253微相microphase254界面相boundary phase255相容性compatibility256混容性miscibility257不相容性incompatibility258不混容性immiscibility259增容作用compatiibilization260最低临界共溶(溶解)温lower critical solution temperature, LCST度261最高临界共溶(溶解)温upper critical solution temperature , UCST度262浓度猝灭concentration quenching263激基缔合物荧光excimer fluorescence264激基复合物荧光exciplex fluorescence265激光共聚焦荧光显微镜laser confocal fluorescence microscopy266单轴取向uniaxial orientation267双轴取向biaxial orientation, biorientation268取向度degree of orientation269橡胶态rubber state270玻璃态glassy state271高弹态elastomeric state272黏流态viscous flow state273伸长elongation274高弹形变high elastic deformation275回缩性，弹性复原nerviness276拉伸比draw ratio, extension ratio277泊松比Poisson's ratio278杨氏模量Young's modulus279本体模量bulk modulus280剪切模量shear modulus281法向应力normal stress282剪切应力shear stress283剪切应变shear strain284屈服yielding285颈缩现象necking 又称“细颈现象”286屈服应力yield stress287屈服应变yield strain288脆性断裂brittle fracture289脆性开裂brittle cracking290脆-韧转变brittle ductile transition291脆化温度brittleness(brittle) temperature292延性破裂ductile fracture293冲击强度impact strength294拉伸强度tensile strength 又称“断裂强度,breaking strength”295极限拉伸强度ultimate tensile strength296抗撕强度tearing strength 又称“抗扯强度”297弯曲强度flexural strength, bending strength298弯曲模量bending modulus299弯曲应变bending strain300弯曲应力bending stress301收缩开裂shrinkage crack302剪切强度shear strength303剥离强度peeling strength304疲劳强度fatigue strength, fatigue resistance305挠曲deflection306压缩强度compressive strength307压缩永久变形compression set308压缩变形compressive deformation309压痕硬度indentation hardness310洛氏硬度Rockwell hardness311布氏硬度Brinell hardness312抗刮性scrath resistance313断裂力学fracture mechanics314力学破坏mechanical failure315应力强度因子stress intensity factor316断裂伸长elongation at break317屈服强度yield strength318断裂韧性fracture toughness319弹性形变elastic deformation320弹性滞后elastic hysteresis321弹性elasticity322弹性模量modulus of elasticity323弹性回复elastic recovery324不可回复形变irrecoverable deformation325裂缝crack 俗称“龟裂”326银纹craze327形变；变形deformation328永久变形deformation set329剩余变形residual deformation330剩余伸长residual stretch331回弹，回弹性resilience332延迟形变retarded deformation333延迟弹性retarded elasticity334可逆形变reversible deformation335应力开裂stress cracking336应力-应变曲线stress strain curve337拉伸应变stretching strain338拉伸应力弛豫tensile stress relaxation339热历史thermal history340热收缩thermoshrinking341扭辫分析torsional braid analysis，TBA342应力致白stress whitening343应变能strain energy344应变张量strain tensor345剩余应力residual stress346应变硬化strain hardening347应变软化strain softening348电流变液electrorheological fluid349假塑性pseudoplastic350拉胀性auxiticity351牛顿流体Newtonian fluid352非牛顿流体non-Newtonian fluid353宾汉姆流体Bingham fluid354冷流cold flow355牛顿剪切黏度Newtonian shear viscosity356剪切黏度shear viscosity357表观剪切黏度apparent shear viscosity358剪切变稀shear thinning359触变性thixotropy360塑性形变plastic deformation361塑性流动plastic flow362体积弛豫volume relaxation363拉伸黏度extensional viscosity364黏弹性viscoelasticity365线性黏弹性linear viscoelasticity366非线性黏弹性non-linear viscoelasticity367蠕变creep368弛豫[作用] relaxation 又称“松弛”369弛豫模量relaxation modulus370蠕变柔量creep compliance371热畸变温度heat distortion temperature372弛豫谱relaxation spectrum373推迟[时间]谱retardation [time] spectrum374弛豫时间relaxation time375推迟时间retardation time376动态力学行为dynamic mechanical behavior 377动态黏弹性dynamic viscoelasticity378热-机械曲线thermo-mechanical curve379动态转变dynamic transition380储能模量storage modulus381损耗模量loss modulus382复数模量complex modulus383复数柔量complex compliance384动态黏度dynamic viscosity385复数黏度complex viscosity386复数介电常数complex dielectric permittivity 387介电损耗因子dielectric dissipation factor388介电损耗常数dielectric loss constant389介电弛豫时间dielectric relaxation time390玻璃化转变glass transition391玻璃化转变温度glass-transition temperature392次级弛豫secondary relaxation393次级转变secondary transition394次级弛豫温度secondary relaxation temperature 395开尔文模型Kelvin model05.4 高分子加工技术和应用。

高分子材料专业英语翻译Polymer materials, also known as macromolecular materials, are a kind of material with high molecular weight composed of repeating structural units. They are widely used in various fields due to their excellent properties such as light weight, high strength, and good corrosion resistance. In recent years, the demand for polymer materials has been increasing, and the study of polymer materials has become a hot topic in the field of materials science. Therefore, it is necessary to have a good understanding of the professional English translation of polymer materials in order to better communicate and exchange ideas with international counterparts.Firstly, let's start with the translation of some basic concepts related to polymer materials. "Polymer" can be translated into "高分子" in Chinese, which refers to the macromolecular compounds formed by the polymerization of monomers. "Polymerization" can be translated as "聚合" or "聚合反应", which specifically refers to the chemical reaction process of monomers forming polymers. "Macromolecule" can be translated as "大分子", which refers to a molecule with a large molecular weight formed by the combination of a large number of atoms. "Monomer" can be translated as "单体", which refers to the small molecules that can polymerize into polymers. "Polymerization degree" can be translated as "聚合度", which refers to the number of monomer units in a polymer molecule.Secondly, it is important to understand the translation of the properties of polymer materials. "Light weight" can be translated as "轻质", which refers to the low density of polymer materials. "High strength" can be translated as "高强度", which refers to the ability of polymer materials to withstand external forces without deformation or fracture. "Corrosion resistance" can be translated as "耐腐蚀性", which refers to the ability of polymer materials to resist chemical or electrochemical corrosion. "Flexibility" can be translated as "柔韧性", which refers to the ability of polymer materials to bend or stretchwithout breaking. "Thermal stability" can be translated as "热稳定性", which refers to the ability of polymer materials to maintain their properties at high temperatures.Furthermore, it is necessary to understand the translation of the processing methods of polymer materials. "Extrusion" can be translated as "挤出", which refers to the process of forcing polymer materials through a die to form continuous shapes. "Injection molding" can be translated as "注塑", which refers to the process of injecting molten polymer materials into a mold to form a desired shape. "Blow molding" can be translated as "吹塑", which refers to the process of inflating molten polymer materials into a mold to form hollow shapes. "Compression molding" can be translated as "压缩成型", which refers to the process of placing polymer materials in a mold and applying pressure and heat to form a desired shape.In conclusion, the professional English translation of polymer materials is essential for researchers, engineers, and professionals in the field of materials science. By mastering the accurate translation of key concepts, properties, and processing methods of polymer materials, we can better communicate and collaborate with international counterparts, promote the exchange of knowledge and technology, and contribute to the development and application of polymer materials on a global scale.。