(AIV)冲击值英文版表格

德信诚培训网冷热冲击测试规范Thermal Shock Test Procedure1.0 PURPOSE (目的):1.1The Thermal shock test is designed to determine the effects on the product due to high and low temperatures and humidity. This is an accelerated test to uncover weakness in components, assemblies, and processes, which may appear in the field during normal handling. The test limits include stress testing. Any failures found in during the test does not represents any non-conformity to the product specification and should be followed up with further investigation of the failure mode due to components, process, or design problems.1.1 冷热冲击是设计用来判定产品在高温与低温间的影响，这是一个加速的试验，用来揭露在测试过程中各组成原件的弱点，在试验期间所发生的任何损坏，不能表示任何产品规格的不符合，而需要继续进一步的对损坏做研究调查。

2.0 SCOPE (范围):2.1This test describes the maximum and minimum storage temperature specification under which products are to storage.2.1 这个试验描述产品最高温及最低温储存温度规格。

砂石材料试验检测技术一、砂石材料基本概念1．砂石材料：是石料和集料(又称骨料)的总称。

2．石料分类：根据石料形成时的地质条件分成岩浆岩、沉积岩、变质岩三大类。

3．集料的定义：在混合料中起骨架和填充作用的粒料。

4．标准筛：对颗粒性材料进行筛分试验用的符合标准形状和尺寸规格要求的系列样品筛。

5．集料划分方法：（1）按集料形成过程：分为自然风化、地质作用形成的卵石（砾石）和人工机械加工而成的碎石。

（2）按粒径大小分为粗集料和细集料（又称砂）。

（3）按化学成分分为酸性集料和碱性集料。

6．粗、细集料划分：水泥混凝土的分界尺寸是4.75mm，沥青混合料的分界尺寸为2.36mm。

7．集料最大粒径和公称最大粒径：公称最大粒径比最大粒径小一个粒级。

集料最大粒径指集料100%都要求通过的最小标准筛筛孔尺寸。

集料公称最大粒径指集料可能全部通过或允许有少量筛余(筛余量不超过10%)的最小标准筛筛孔尺寸。

实际上工程中所指的最大粒径往往是指公称最大粒径。

二、石料1．真密度：石料在在规定试验条件下(温度20℃)，单位真实体积(不包括孔隙体积)的质量。

量纲为g／cm3。

2．毛体积密度：石料在规定试验条件下，单位毛体积(包括矿质实体和闭口、开口孔隙的体积)的质量。

3．孔隙率P：石料孔隙体积占其总体积（即毛体积）的百分率。

4．吸水性：衡量一定条件下石料吸水能力的大小称为石料的吸水性。

可用吸水率和饱水率两项指标表示。

1）吸水率：石料在室温（20±2℃）和大气压条件下，石料试样最大吸水质量占烘干（105±5℃）石料试样质量的百分率。

2)饱水率：石料在室温（20±2℃）和抽真空（真空度残压为2.67KPa)后的条件下，石料试样最大吸水量占烘干石料试样质量的百分率。

饱水率比吸水率大，饱水率的计算方法与吸水率相似。

5．耐候性：石料在自然环境下的使用过程中，首先要承受周围环境温度改变引起的温度应力作用，其次是承受因正、负气温的交替冻融引起内部组织结构受到的破坏作用，评价石料这种抵抗自然破坏因素的性能称为耐候性。

punch冲头insert入块(嵌入件) deburring punch压毛边冲子groove punch压线冲子stamped punch字模冲子round punch圆冲子special shape punch异形冲子bending block折刀roller滚轴baffle plate挡块located block定位块supporting block for location定位支承块air cushion plate气垫板air-cushion eject-rod气垫顶杆trimming punch切边冲子stiffening rib punch = stinger加强筋冲子ribbon punch压筋冲子reel-stretch punch卷圆压平冲子guide plate定位板sliding block滑块sliding dowel block滑块固定块active plate活动板lower sliding plate下滑块板upper holder block上压块upper mid plate上中间板spring box弹簧箱spring-box eject-rod弹簧箱顶杆spring-box eject-plate弹簧箱顶板bushing bolck衬套cover plate盖板guide pad导料块冲压模具-模板类常用中英文对照表(下)[2007-12-21]top plate上托板(顶板)top block上垫脚punch set上模座punch pad上垫板punch holder上夹板stripper pad脱料背板up stripper上脱料板male die公模(凸模) feature die公母模female die母模(凹模) upper plate上模板lower plate下模板die pad下垫板die holder下夹板die set下模座bottom block下垫脚bottom plate下托板(底板)stripping plate内外打(脱料板) outer stripper外脱料板inner stripper内脱料板lower stripper下脱料板金属材料中英对照词汇物料科学Material Science物料科学定义Material Science Definition加工性能Machinability强度Strength抗腐蚀及耐用Corrosion & resistance durability金属特性Special metallic features抗敏感及环境保护Allergic, re-cycling & environmental protection化学元素Chemical element元素的原子序数Atom of Elements原子及固体物质Atom and solid material原子的组成、大小、体积和单位图表The size, mass, charge of an atom, and is particles (Pronton,Nentron and Electron)原子的组织图Atom Constitutes周期表Periodic Table原子键结Atom Bonding金属与合金Metal and Alloy铁及非铁金属Ferrous & Non Ferrous Metal金属的特性Features of Metal晶体结构Crystal Pattern晶体结构，定向格子及单位晶格Crystal structure, Space lattice & Unit cell X线结晶分析法X – ray crystal analyics method金属结晶格子Metal space lattice格子常数Lattice constant米勒指数Mill's Index金相及相律Metal Phase and Phase Rule固熔体Solid solution置换型固熔体Substitutional type solid solution插入型固熔体Interstital solid solution金属间化物Intermetallic compound金属变态Transformation变态点Transformation Point磁性变态Magnetic Transformation同素变态Allotropic Transformation合金平衡状态Thermal Equilibrium相律Phase Rule自由度Degree of freedom临界温度Critical temperture共晶Eutectic包晶温度Peritectic Temperature包晶反应Peritectic Reaction包晶合金Peritectic Alloy亚共晶体Hypoeutetic Alloy过共晶体Hyper-ectectic Alloy金属的相融、相融温度、晶体反应及合金在共晶合金、固熔孻共晶合金及偏晶反应的比较Equilibrium Comparision金属塑性Plastic Deformation滑动面Slip Plan畸变Distortion硬化Work Hardening退火Annealing回复柔软Crystal Recovery再结晶Recrystallization金属材料的性能及试验Properties & testing of metal化学性能Chemical Properties物理性能Physical Properties颜色Colour磁性Magnetisum比电阻Specific resistivity & specific resistance比重Specific gravity & specific density比热Specific Heat热膨胀系数Coefficient of thermal expansion导热度Heat conductivity机械性能Mechanical properties屈服强度(降伏强度) (Yield strangth)弹性限度、阳氏弹性系数及屈服点elastic limit, Yeung's module of elasticity to yield point伸长度Elongation断面缩率Reduction of area金属材料的试验方法The Method of Metal inspection不破坏检验Non – destructive inspections渗透探伤法Penetrate inspection磁粉探伤法Magnetic particle inspection放射线探伤法Radiographic inspection超声波探伤法Ultrasonic inspection显微观察法Microscopic inspection破坏的检验Destructive Inspection冲击测试Impact Test疲劳测试Fatigue Test潜变测试Creep Test潜变强度Creeps Strength第壹潜变期Primary Creep第二潜变期Secondary Creep第三潜变期Tertiary Creep主要金属元素之物理性质Physical properties of major Metal Elements工业标准及规格–铁及非铁金属Industrial Standard – Ferrous & Non – ferrous Metal 磁力Magnetic简介General软磁Soft Magnetic硬磁Hard Magnetic磁场Magnetic Field磁性感应Magnetic Induction透磁度Magnetic Permeability磁化率Magnetic Susceptibility (Xm)磁力(Magnetic Force)及磁场(Magnetic Field)是因物料里的电子(Electron)活动而产生抗磁体、顺磁体、铁磁体、反铁磁体及亚铁磁体Diamagnetism, Paramagnetic, Ferromagnetism,Antiferromagnetism & Ferrimagnetism抗磁体Diamagnetism磁偶极子Dipole负磁力效应Negative effect顺磁体Paramagnetic正磁化率Positive magnetic susceptibility铁磁体Ferromagnetism转变元素Transition element交换能量Positive energy exchange外价电子Outer valence electrons化学结合Chemical bond自发上磁Spontaneous magnetization磁畴Magnetic domain相反旋转Opposite span比较抗磁体、顺磁体及铁磁体Comparison of Diamagnetism, Paramagnetic & Ferromagnetism反铁磁体Antiferromagnetism亚铁磁体Ferrimagnetism磁矩magnetic moment净磁矩Net magnetic moment钢铁的主要成份The major element of steel钢铁用"碳"之含量来分类Classification of Steel according to Carbon contents铁相Steel Phases钢铁的名称Name of steel纯铁体Ferrite渗碳体Cementitle奥氏体Austenite珠光体及共释钢Pearlite &Eutectoid奥氏体碳钢Austenite Carbon Steel单相金属Single Phase Metal共释变态Eutectoid Transformation珠光体Pearlite亚铁释体Hyppo-Eutectoid初释纯铁体Pro-entectoid ferrite过共释钢Hype-eutectoid珠光体Pearlite粗珠光体Coarse pearlite中珠光体Medium pearlite幼珠光体Fine pearlite磁性变态点Magnetic Transformation钢铁的制造Manufacturing of Steel连续铸造法Continuous casting process 电炉Electric furnace均热炉Soaking pit全静钢Killed steel半静钢Semi-killed steel沸腾钢(未净钢) Rimmed steel钢铁生产流程Steel Production Flow Chart钢材的熔铸、锻造、挤压及延轧The Casting, Fogging, Extrusion, Rolling & Steel 熔铸Casting锻造Fogging挤压Extrusion延轧Rolling冲剪Drawing & stamping特殊钢Special Steel简介General特殊钢以原素分类Classification of Special Steel according to Element特殊钢以用途来分类Classification of Special Steel according to End Usage易车(快削)不锈钢Free Cutting Stainless Steel含铅易车钢Leaded Free Cutting Steel含硫易车钢Sulphuric Free Cutting Steel硬化性能Hardenability钢的脆性Brittleness of Steel低温脆性Cold brittleness回火脆性Temper brittleness日工标准下的特殊钢材Specail Steel according to JIS Standard铬钢–日工标准JIS G4104 Chrome steel to JIS G4104铬钼钢钢材–日工标准G4105 62 Chrome Molybdenum steel to JIS G4105镍铬–日工标准G4102 63 Chrome Nickel steel to JIS G4102镍铬钼钢–日工标准 G4103 64 Nickel, Chrome & Molybdenum Steel to JIS G4103。

24项压力感知指数(PSS)英文版24-Item Perceived Stress Scale (PSS)The 24-Item Perceived Stress Scale (PSS) is a widely used tool to measure the perception of stress in individuals. It consists of 24 questions that assess how unpredictable, uncontrollable, and overloaded respondents find their lives. The PSS is designed to capture the degree to which situations in one's life are appraised as stressful.The PSS is divided into two subscales: Perceived Helplessness and Perceived Self-Efficacy. The Perceived Helplessness subscale focuses on feelings of being overwhelmed and unable to cope with stress, while the Perceived Self-Efficacy subscale measures the ability to handle difficult situations effectively.Respondents rate each item on a 5-point Likert scale, ranging from "Never" to "Very Often." Scores on the PSS can range from 0 to 96, with higher scores indicating higher levels of perceived stress. The PSSis a valuable tool for researchers and clinicians to assess stress levels and tailor interventions accordingly.In conclusion, the 24-Item Perceived Stress Scale is a valuable instrument for measuring stress perception in individuals. By utilizing this tool, professionals can gain insight into the stress levels of their clients and develop targeted interventions to improve overall well-being.。

高电压绝缘技术相关英文词汇整理的高电压绝缘技术相关英文词汇Ambient air temperature 周围空气温度External insulation 外绝缘Internal insulation 内绝缘Self-restoring insulation 自恢复绝缘Non-self restoring insulation 非自恢复绝缘Disruptive discharge 破坏性放电Sulfur hexafluoride circuit breaker SF6断路器Rated value 额定值Applied voltage 外施电压Clearance 间距两个导电部件间的、沿这些导电部件间最短路径的直线距离Insulation level 绝缘水平Power frequency withstand voltage 工频耐受电压Impulse withstand voltage冲击耐受电压Switching impulse 操作冲击Lightning impulse withstand voltage（LIWV）雷电冲击Atmospheric conditions 大气条件Altitude correction 海拔修正Long air-gap 长空气间隙Correction coefficient 校正系数Plateau region of china 中国高原地区Relative atmospheric density 相对大气密度Absolute humidity 绝对湿度Triangulation 三角测量Transducer 转换器；变频器；换能器，转换装置；发送器；传感器Time delay histogramWave front time 波前时间Wave tail time 波尾时间Impulse generator (IG) 冲击电压发生器Marx’s circuit 马克斯回路Trigger gap 点火间隙Testing transformer 试验变压器Power transformer 电力变压器Cascade connection （变压器的）串级连接Cockcroft-Wolton电路（直流）串级整流电路Accreditation system 认证制度Sphere gap 球间隙Rod gap 棒间隙Ultra high voltage （UHV）特高压Extra high voltage （EHV）超高压Electric charge 电荷Electric field 电场Electric potential 电位Poission’s equation 泊松方程Permittivity in vacuum 真空中的介电常数Laplace’s equation 拉普拉斯方程Conformal mapping method 保角变换法Electric flux density 电通量密度Absolute dielectric constant 绝对介电常数Relative dielectric constant 相对介电常数Conductivity 电导率Current density 电流密度Difference method 差分法Taylor expansion 泰勒展开式Finite elements method 有限元法Charger superposition method 模拟电荷法Corona noise 电晕干扰Corona discharge 电晕放电Electric shock 电击Insulating material 绝缘体Dielectric 电介质Insulating property绝缘性质Dielectric breakdown 绝缘击穿Dielectric strength 介质强度Dielectric polarization 介质极化Polarized charge 极化电荷Bound charge 束缚电荷Dielectric loss 介质损耗Dielectric absorption 介质吸收Spontaneous charging current 瞬时充电电流Absorption current 吸收电流Leakage current 泄流电流Ionization 电离Diffusion and recombination （分子）扩散和复合Impact ionization 碰撞电离Electron avalanche电子雪崩First ionization coefficient 第1电离系数Criterion for spark discharge 汤逊火花放电条件Secondary ionization coefficient 第2电离系数Streamer theory 流注理论Plasma 等离子体Leader （放电）先导Main stroke 主放电Glow discharge 辉光放电Arc discharge 电弧放电Intrinsic breakdown 本征击穿Electronic thermal breakdown 电子热击穿Electronic avalanche breakdown场致发射击穿Partial discharge degradation 局部放电劣化Treeing degradation 树枝化劣化Electric tree 电树枝Water tree 水树枝Chemical tree 化学树枝Composite insulation 复合绝缘Surface discharge 沿面放电Insulation characteristics test 绝缘特性试验High voltage direct current test 直流高压试验Dielectric loss tangent test 介质损耗角正切试验Alternating current test 交流电流试验Type test型式试验Acceptance test 验收试验Test after installation 竣工试验Step by step voltage rising 逐步升压法Residual life 剩余寿命Schering bridge 西林电桥Acoustic emission sensor （AE）传感器Corss-linked polyethylene insulated polyvingl-chrolide sheathed cable 交联聚乙烯Ceramic varistor 陶瓷变阻元件Long wave frontsThe external insulation under high-altitude, icing, pollution and other adverse natural conditions need in-depth test studies.Semi-peak value resistance 半电压电阻Rationalization of insulation 绝缘配合gantry crane 龙门吊车航吊empirical 经验的，实验的empirical analysis / assumption / coefficient / comparison / constant经验分析/假设/系数/比较/常数smoothing capacitor 平波电抗器valve tower 分水塔loose flange 活套法兰mounting hole 安装孔o ring groove o 型坡口长间隙击穿long air gap，breakbown ofAuxiliary equipment 辅助设备Long term energisation at 855kV 在855kV下长期运行Water repellant properties of composite insulator负荷绝缘子的憎水性Resonant Test System 谐振试验系统Leader Propagation Model 先导发展模型Dielectric loss 介质损耗Series resonant 串联谐振Stochastic 随机性Oil impregnated paper bushing（OIP）油浸纸套管Epoxy resin impregnated bushing 环氧浸纸套管PASS (Plug and Switch System)Condenser 电容器Resin Impregnated Paper bushing(RIP) 树脂浸纸套管Bushings 套管Wall bushings 穿墙套管Routine and special tests 常规和特殊试验Power/dissipation factor 介质损耗因数chopped lightning impulse 雷电截波permanently hydrophilic insulator 憎水绝缘子artificial climate hall 人工气候室composite housed SF6 filled bushing SF6气体绝缘复合套管creeping distance 爬电距离（绝缘子的）Corrugate pipe 波纹管ultra-high frequency measurement 超高频法（测局放的一种方法）Capacitive voltage dividing principle 电容分压原理Electrolyte 电解液Bode diagram 波特图Environment humidity 环境湿度Non linearity characteristics 非线性特性Pollution duration 污秽持续时间（污秽试验中）Resonance potential 共振电压Glow discharge 辉光放电Electric arc discharge 电弧放电Dielectric breakdown discharge 电击穿强度Sparking voltage 火花电压Formation 老练处理Polarity effect 极性效应Edge effect 边缘效应Coaxial cylinder gap 同轴圆筒间隙Knife edge electrode 刃型电极Virtual front time 视在波前时间Virtual time to half value 视在波尾时间Peak value 峰值Time above 90% 90%持续时间Discharge ratio 放电概率50% flashover voltage 50%放电电压Main stroke 主放电Electronegative gas 电负性气体Lightning rod 避雷针Grounding/ eathling 接地Root mean square value 有效值（方均根值）Distortion factor 波形畸变率Cascade connection 串接（试验变压器）Ripple factor 纹波系数Multistage impulse voltage generator 多级冲击电压发生器Electromagnetic type potential transformer 电磁式电压互感器Capacitance potential device 电容式电压互感器Damped capacitor divider 阻尼电容分压器Scale factor 分压比Matching resistor 匹配电阻Multiple level method 多级法（测量50%放电电压的一种方法）Up and down method 升降法（测量50%放电电压的一种方法）Impulse peak voltmeter 峰值电压表Current measuring shunt 分流器Coaxial tubular shunt 同轴分流器Insulation characteristics test 绝缘特性试验Insulation resistance test 绝缘电阻试验Polarization 极化指数Leakage index 泄漏指数Schering bridge 西林电桥Oscillating impulse voltage OIV 振荡冲击电压波形Oscillating lighting impulse OLI 振荡雷电波Oscillating switching impulse OSI 振荡操作波。

冲击系数的表达符号embed在工程学和物理学中，冲击系数是一个重要的概念，它用来描述两个物体发生碰撞时的能量损失情况。

冲击系数通常用一个特定的符号来表示，这个符号称为冲击系数的表达符号。

在各种学科和领域中，冲击系数的表达符号有不同的标准和约定，下面介绍一些常见的表达符号及其含义。

1. 符号的含义冲击系数通常用e表示，它表示碰撞中两个物体的相对速度变化与相对速度的比值，即：e = (相对速度变化) / (相对速度)冲击系数的取值范围在0到1之间，0表示完全非弹性碰撞，1表示完全弹性碰撞。

在实际的碰撞中，冲击系数可以根据具体情况取不同的数值。

2. 不同领域的表达符号在工程学和物理学中，通常使用小写字母e来表示冲击系数。

这是因为e是elasticity（弹性）的首字母，与碰撞的弹性有关。

在一些文献和教材中，也会用小写字母r或大写字母E来表示冲击系数，其含义与小写字母e相同。

在机械工程和材料科学领域，有时也会用其他符号来表示冲击系数，比如μ、η等。

这些符号在特定的研究和实践中具有特定的含义，但通常不属于标准的表示符号。

3. 符号的重要性冲击系数作为描述碰撞过程的重要参数，其表达符号的选择和使用对于学术研究和工程实践具有重要意义。

正确地选择和使用符号可以准确地描述和分析碰撞过程，有利于研究者和工程师的交流和交流。

对于初学者和学生来说，理解和掌握冲击系数的表达符号也是建立正确的物理直觉和工程思维的重要一步。

通过学习和掌握冲击系数的表达符号，可以更好地理解和应用碰撞动力学的知识，为未来的学习和研究奠定坚实的基础。

总结冲击系数的表达符号是描述碰撞过程中能量损失的重要参数，通常用e 来表示。

正确地选择和使用符号对于学术研究和工程实践具有重要意义，对于初学者来说，掌握冲击系数的表达符号也是建立正确物理直觉和工程思维的重要一步。

希望本文对读者对冲击系数的表达符号有所帮助。

冲击系数的表达符号是描述碰撞过程中能量损失的重要参数。

电工技术英汉对照表宋黎明Electrical circuit 电路Sensor传感器Amplifier放大器Net 网格Battery 电池DC voltage 直流电压AC voltage交流电压Reference Polarities -----------Switch开关Equivalent circuits 等效电路Wheatstone bridge惠斯通电桥Source transformation电源变换Potentiometer 分压计Planar circuit 平面电流Insulators 绝缘体Semiconductor半导体Actual direction实际方向Alternating current交流Charge电荷Circuit电路Circuit analysis电路分析Node-voltage analysis结点电压法Mesh-current analysis 回路电流法Conductor导体conductance 电导Complex impedance复阻抗reactance电抗resistor电阻器resistance电阻Capacitor电容器capacitance电容Inductor电感器inductance电感Current电流Direct current 直流Energy能量Kirchhoff’s current law (KCL)基尔霍夫电流定律Kirchhoff’s Voltage law (KVL)基尔霍夫电压定律Node节点（结点）supernode广义节点 Essential Nodes 基本节点branch支路loop回路mesh网孔 Superposition principle叠加原理Ohm’s law欧姆定律Power 功率real power 有功功率=average power平均功率Reactive power无功功率Complex power 复功率apparent power视在功率Power factor功率因数power angle功率角Reference direction参考方向= reference polarity参考极性Passive reference configuration = passive sign convention关联参考方向Active reference configuration = active sign convention非关联参考方向Series circuit串联Voltage-division principle分压原理parallel circuit并联Current-division principle分流原理Source电源Independent source独立电源dependent source非独立电源（受控电源）Voltage source电压源current source 电流源Voltage-control voltage source （VCVS）电压控制电压源Voltage-control current source （VCCS）电压控制电流源Current-control voltage source （CCVS）电流控制电压源Current-control current source （CCVS）电流控制电流源Steady-state稳态steady-state sinusoidal analysis正弦稳态分析Peak value 峰值（amplitude幅值）root-mean-square values均方根值（effective value有效值）Angular frequency角频率frequency频率period周期Phase angle相位角Phasor相量Balanced three-phase circuits对称三相电路Balanced source对称电源balanced load对称负载Wye-connected (Y-connected) 星型连接Delta-connected 三角形连接Phase voltage (line-to-neutral voltage) 相电压line-to-line voltage线电压Line current线电流Positive phase sequence正序negative phase sequence反序Transient暂态 Forcing function强制函数first-order RC circuits一阶电路differential equation微分方程transient response暂态响应 Switching rules换路定理steady-state response稳态响应（forced response强制分量）Time constant时间常数initial condition初始条件Particular solution特殊解complementary solution补充解Voltage电压Thevenin equivalent Circuit戴维南等效电路open-circuit voltage开路电压Thevenin resistance戴维南等效电阻Norton equivalent circuit诺顿等效电路short-circuit current短路电流Source T ransformation电源的等效变换Transformer 变压器Electrical machinery 电机Generator发电机motor电动机DC motor直流电动机AC motor交流电动机Synchronous 同步电机Induction感应电机(Asynchronous)（异步电机）Electronically controlled precision motors控制电机Stator定子rotor转子permanent magnet永磁体shaft轴Electromagnetic torque 电磁转矩。

Table Of Content一：Electrical Test (2)1.1 Line regulation, load regulation and intersect load regulation test (2)1.2 Full-load efficiency test (3)1.3 Ripple &noise test (4)1.4 Turn on delay & hold-up time test (6)1.5 Inrush current test (8)二：Protection Test (9)2.1 Short-circuit protection Test (9)三：Voltage-withstand test (10)四：Test summary (11)一：Electrical Test/电性能测试1.1line regulation, load regulation and intersect load regulation/线性和负载及交叉负载调整率1.1.1 line regulation and load regulation/线性和负载调整率Ambient temperature :room temperature（25℃）/环境温度：室温（25℃）1.1.2 Intersect load regulationAmbient temperature :room temperature（25℃）/环境温度：室温（25℃）2.2 No Load Consumption/空载损耗Ambient temperature :room temperature （25℃）/环境温度：室温（25℃） V1: (+24V 5.0A)Input ：86Vac load ：0.5A Input ：86Vac load ：5AInput：220Vac load ：0.5A Input ：220Vac load ：5AInput ：264Vac load ：0.5A Input ：264Vac load ：5A2.4 Turn on delay and Hold up time /起机延时和关机维持时间Ambient temperature :room temperature （25℃）/环境温度：室温（25℃） Standard Voltage （220Vac ） MaximumVoltage（264Vac ）Input ：86Vac load ：0.5A Input ：86Vac load ：5AInput ：220Vac load ：0.5A Input ：220Vac load ：5AInput ：264Vac load ：0.5A Input ：264Vac load ：5A2.5 Inrush Current Test /启动冲击电流测试(参考)Ambient temperature :room temperature （25℃）/环境温度：室温（25℃） Test method ：Current probe gear is 5V/A/测试方法：电流探棒档位为5V/A Input VoltageMinimumVoltage（86Vac）Standard Voltage （220Vac ） Maximum Voltage （264Vac ）Inrush current Spec.RequirementResult PASSInput ：86Vac Input ：220VacInput：264Vac三：Protection Test/保护测试3.1 Short-circuit protection Test /输出短路保护（有）Ambient temperature :room temperature （25℃）/环境温度：室温（25℃）V1 : (+24V 5.0A)MinimumVoltage（86Vac）PASS3.2 Over Current Protection Test/输出过流保护Ambient temperature :room temperature （25℃）/环境温度：室温（25℃）V1 : (+24V 5.0A)3.2 Over Voltage Protection Test/输出过流保护Ambient temperature :room temperature （25℃）/环境温度：室温（25℃）V1 : (+24V 5.0A)四：Voltage-withstand Test/关键件的耐压测试Ambient temperature :room temperature （25℃）/环境温度：室温（25℃）Input ：86Vac Input ：220VacInput ：264VacQ1：Input：86Vac Vgs Input：220Vac VgsInput：264Vac Vgs Input：86Vac VdsInput：220Vac Vds Input：264Vac VdsResult：PASSWINSUN 五：Test summary/测试总结Result：PASS- 10 -。

高电压工程中英文词汇表-字母序_620608125中文英文脉冲功率技术（PPT）pulse power technology 50%放电电压50% breakdown voltage50%击穿电压50% breakdown voltage吸收比absorptance吸收电流absorption current老化aging交变电压alternating voltage幅度-光强度调制AM-IM幅值amplitude电弧放电arc discharge灭弧arc suppressing避雷器arrester人工污秽试验artificial pollution test标准参考大气条件Atmospheric reference condition 屏障barrier屏障效应barrier effect弯曲负荷bending load全波基本冲击绝缘BIL（basic impulse level）边界元法boundary element method击穿breakdown击穿电压breakdown voltage基本操作冲击绝缘水平BSL（basic switch level）套管bushing电缆cable电容分压器capacitor divider串联电路Cascade circuit模拟电荷法charge simulation method断路器circuit breaker碰撞电离collision ionization碰撞电离系数collision ionization coefficient 补偿线圈compensating winding电导conduction电导率conductivity电晕放电corona discharge电晕损耗corona loss电晕起始电压corona onset voltage校正因数correction factor爬电距离creapage distance临界场强critical electrical strength电流密度current density电流互感器Current transformer阻尼电容分压器damped capacitor voltage divider 阻尼电阻damping resistor直流击穿电压DC breakdown voltage衰减decay破坏性试验destructive test介损Dielectric loss介质损失角正切dielectric loss angle tangent电介质dielectrics扩散diffuse瞬态波形存储器digitizer直流输电direct current transmission盆式绝缘子disc spacer位移电流displacement current位移极化displacement polarization分布参数电路distributed parameter circuit分压器divider干区dry band干闪络电压dry flashover voltage数字存储示波器DSO（digitizing storage oscilloscope）接地电阻earth resistance接地阻抗earth resistance兆欧表earthmeter生态效应ecological efficiency（接地体）临近效应effect of nearby earthed object极性效应effect of polarity超高压EHV (extra high voltage)电击穿electric breakdown电气强度electrical strength电树枝electrical tree电工陶瓷electroceramics电化学electrochemical机电联合试验electro-mechanical test电子崩(α过程)electron avalanche电负性electronegativity电光效应electro-optic effect静电场electrostatic field静电发生器Electrostatic generator静电电压表Electrostatic voltmeter电磁兼容EMC（electro-magnetic compatibility）高速电磁脉冲EMP金具end fitting乙丙橡胶EPDM(ethylene propylene rubber)装机容量equipped capacitor等值盐密equivalent salt deposit density,ESDD励磁线圈exciting winding外绝缘external insulation消弧线圈extinction coil灵活输电FACTS (Flexible AC Transmission System)故障电流failure current法拉第笼Faraday cage场致发射field emission有限元法Finite element method落雷密度flash density闪络电压flashover voltage调频-光强度调制FM-IM自由行程free path波前电阻Front resistor满偏刻度FSD（full scale deflection）全波full wave气相色谱分析gas chromatographic analysis气体放电gas discharge发电量generating capacity气体绝缘变电站GIS（gas insulated substation）辉光放电glow discharge陡度gradient架空地线，地线ground wire接地装置grounding device防雷接地grounding for lightening半波整流电路half-wave rectifying circuit高压high voltage高压臂High voltage arm套筒hollow insulator湿度校正因数humidity correction factor憎水性hydrophobicity冰闪icing flashover冲击电流，脉冲电流impulse current冲击电压发生器impulse oltage generater冲击系数impulse ratio冲击电压impulse voltage感应过电压induced overvoltage绝缘配合Insulation coordination绝缘诊断insulation diagnosis绝缘距离insulation distance绝缘水平insulation level绝缘材料insulation material绝缘在线检测insulation on-line test绝缘电阻insulation resistance绝缘检测insulation test绝缘子insulator绝缘子串insulator string电离Ionization电离系数ionization coefficient电离层ionization layer铁芯Iron core克尔效应Kerr effect泄漏电流leakege current避雷线lightning conductor雷闪lightning flashover雷电冲击电压lightning impulse voltage雷电冲击耐压试验lightning impulse withstand voltage test 雷击跳闸率lightning outage rate大气过电压lightning over voltage避雷针lightning rod雷击lightning stroke耐雷水平lightning withstand level负荷中心load center损耗loss低压臂low voltage arm最小有效位LSB（least significant bit）主放电main discharge马克思发生器Marx generator平均自由行程mean free path机械性能mechnical performance兆欧表megohm meter氧化锌避雷器MOA（金属氧化物避雷器）迁移率mobility串级冲击电压发生器Multistage impulse voltage generator 自然污秽试验natural pollution test中性点接地neutral ground非破坏绝缘测试non-destructive insulation test非破坏性测试non-destructive measurement非极性电介质nonpolar dielectric非自持放电non-self-maintained discharge附灰密度non-soluble deposte density, NSDD非均匀场non-uniforme field不均匀系数nonuniformity coefficient试油器oil tester光辐射optical radiation架空线overhead line过冲overshoot过电压overvoltage局部电弧partial arc局部放电partial discharge(PD)巴申定律Paschen’s law峰电压peak voltage光电离photo ionization光电发射Photoelectric emission光电效应photoemission先导放电pilot discharge先导闪流pilot streamer泡克尔斯效应Pockels effect极化polarization污闪pollution flashover污秽闪络电压pollution flashover voltage支柱绝缘子post insulator电压互感器potential transformer工频大电弧试验power frequence arc test工频实验变压器power frequency testing transformer 工频电压power frequency voltage电力变压器power transformer原边线圈primary winding保护角protection angle保护间隙protection gap保护接地protective grounding无线电干扰试验radio interference test雨闪rain flashover复合recombination反射reflect相对介电常数relative inductivity电阻率resistivity电阻分压器resistor divider阻容分压器resistor-capacitor divider谐振频率resonance frequency重燃restrike反击return stroke纹波因数Ripple factor棒间隙rod gap棒-棒电极rod-rod electrode线路走廊ROW (right of way)或corridor盐雾法salt fog method西林电桥Schering bridge次级电子崩secondary avalanche二次电子崩secondary electron avalanche副边线圈secondary winding自恢复绝缘self-restoring insulation自持放电Self-sustained discharge串联谐振回路Series resonant circuit屏蔽shield短路short circuit硅橡胶silicone rubber集肤效应skin effect土壤电阻率soil resistivity固体电介质solid dielectric固体层法solid layer method空间电荷space charge点火球隙spark gap火花放电sparkover voltage球-板电极sphare-plan electrode球-球电极sphare-sphare electrode球隙Sphere gap球隙距离sphere gap spacing分裂导线split conduct标准雷电冲击电压standard lightning impulse voltage 标准操作冲击电压standard swithing impulse voltage 统计诊断statistic diagnosis流注steamer解列过电压stepout overvoltage杂散电容stray capacitance表面电荷surface charge沿面放电surface discharge波阻抗surge impedance悬式绝缘子suspension insulator操作冲击电压switching impulse voltage操作闪络swithing flashover操作过电压swithing over voltage雷暴日Td(thunderstorm day)温度指数temperature exponent拉伸负荷tensile load试验变压器testing transforme热击穿thermal breakdown冷热循环试验thermal cycling test热电离thermal ionization热辐射thermal radiation耐热等级thermal rating光电离临界波长threshold wavelength时延time delay时延Time lag截断时间time to chopping截断时间time to cres扭转负荷torsional load汤森理论Townsend theory耐漏电起痕性能tracking and erosion resistance 特高压UHV (ultra high voltage)不确定度uncertainty均匀电场uniform field真空断路器vacuum circuit breaker甚快速瞬态过电压VFTO (very fast transient overvoltage)视在波前时间Virtual front time视在原点virtual origin视在半峰值时间virtual time to half-value电压等级voltage calss分压器Voltage divider倍压整流电路voltage doubling rectifing circuit电压跌落voltage drop电压表voltmeter50%伏秒特性伏秒特性v-t characteristics截波wave chopped波前截波wave chopped at front波尾截波wave chopped at tail波前wave front波长wave length波尾wave tail湿闪wet flashover湿闪络电压wet flashover voltage 耐受电压withstand voltage 耐压试验withstand voltage test。

Printedcopiesareuncontrolled.Printdate:2015-12-15 印本不受控制。

印刷日期：2015年12月15日测试方法2装置和测试对象-Testequipmentofhigh-pressuretype,brand-NIFAB,modelHTT-1,orequivalenttestequipmentTESTMETHODAdhesion,watersprayingunder 粘附性，高压喷水high-pressurePaintsandenamels 涂料和搪瓷Orientation 简介Thisissuediffersfromissue1inthatanalternativeforwhen scribingshallbemadehasbeenincluded.Furthermore,themanufactureofthespraynozzlehasbee nspecified,andthematerialforcalibrationhasbeenchang ed.Handlingaftermoistureexposurehasbeenclarified.1 Scopeandfieldofapplication本版本与第1版的区别在于包含了划线的替代方法。

此外，已经规定了喷嘴的制造程序，已经更改了校准的材料。

已经澄清了暴露于潮湿环境后的处理程序。

1应用范围和领域Thistestmethodisusedforassessingtheadhesionbetwe enpaintfilmsandbetweenpaintfilmandsubstraterespecti vely.Themethodisintendedtosimulatethestrainandload thatthepaintfilmsaresubjectedtoduringhigh-pressurecl eaning.本测试方法用于评估漆膜之间以及漆膜和基材之间的粘附性。

关于I z O d冲击强度的不同测试方法和单位换算I z o d I m p a c t T e s t i n g(N o t c h e d I z o d)A S T M D256a n d I S O1801.S c o p e:N o t c h e d I z o d I m p a c t i s a s i n g l e p o i n t t e s t t h a t m e a s u r e s a m a t e r i a l s r e s i s t a n c e t o i m p a c t f r o m a s w i n g i n g p e n d u l u m.I z o d i m p a c t i s d e f i n e d a s t h e k i n e t i c e n e r g y n e e d e d t o i n i t i a t e f r a c t u r e a n d c o n t i n u e t h e f r a c t u r e u n t i l t h e s p e c i m e n i s b r o k e n.I z o d s p e c i m e n s a r e n o t c h e d t o p r e v e n t d e f o r m a t i o n o f t h e s p e c i m e n u p o n i m p a c t.T h i s t e s t c a n b e u s e d a s a q u i c k a n d e a s y q u a l i t y c o n t r o l c h e c k t o d e t e r m i n e i f a m a t e r i a l m e e t s s p e c i f i c i m p a c t p r o p e r t i e s o r t o c o m p a r e m a t e r i a l s f o r g e n e r a l t o u g h n e s s.2.T e s t p r o c e d u r e:T h e s p e c i m e n i s c l a m p e d i n t o t h e p e n d u l u m i m p a c t t e s t f i x t u r e w i t h t h e n o t c h e d s i d e f a c i n g t h e s t r i k i n g e d g e o f t h e p e n d u l u m.T h e p e n d u l u m i s r e l e a s e d a n d a l l o w e d t o s t r i k e t h r o u g h t h e s p e c i m e n.I f b r e a k a g e d o e s n o t o c c u r,a h e a v i e r h a m m e r i s u s e d u n t i l f a i l u r e o c c u r s.S i n c e m a n y m a t e r i a l s(e s p e c i a l l y t h e r m o p l a s t i c s)e x h i b i t l o w e r i m p a c ts t r e n g t h a t r e d u c e d t e m p e r a t u r e s,i t i s s o m e t i m e s a p p r o p r i a t e t o t e s t m a t e r i a l s a t t e m p e r a t u r e s t h a t s i m u l a t e t h e i n t e n d e d e n d u s ee n v i r o n m e n t3.R e d u c e d T e m p e r a t u r e T e s t p r o c e d u r e:T h e s p e c i m e n s a r e c o n d i t i o n e d a t t h e s p e c i f i e d t e m p e r a t u r e i n a f r e e z e r u n t i l t h e y r e a c h e q u i l i b r i u m.T h e s p e c i m e n s a r e q u i c k l y r e m o v e d,o n e a t a t i m e,f r o m t h e f r e e z e r a n d i m p a c t e d.N e i t h e r A S T M n o r I S O s p e c i f y a c o n d i t i o n i n g t i m e o r e l a p s e d t i m e f r o m f r e e z e r t o i m p a c t-t y p i c a l v a l u e s f r o m o t h e r s p e c i f i c a t i o n s a r e6h o u r s o f c o n d i t i o n i n g a n d5 s e c o n d s f r o m f r e e z e r t o i m p a c t.4.S p e c i m e n s i z e:T h e s t a n d a r d s p e c i m e n f o r A S T M i s64x12.7x3.2m m(2½ x ½ x 1/8 inch). The most common specimen thickness is 3.2 mm (0.125 inch), but the preferred thickness is 6.4 mm (0.25 inch) because it is not as likely to bend or crush. The depth under the notch of the specimen is 10.2 mm (0.4 inches).The standard specimen for ISO is a Type 1A multipurpose specimen with the end tabs cut off. The resulting test sample measures 80 x 10 x 4 mm. The depth under the notch of the specimen is 8mm5.Data:ASTM impact energy is expressed in J/m or ft-lb/in. Impact strength is calculated by dividing impact energy in J (or ft-lb) by the thicknessof the specimen. The test result is typically the average of 5 specimens.ISO impact strength is expressed in kJ/m2. Impact strength is calculated by dividing impact energy in J by the area under the notch. The test result is typically the average of 10 specimens.The higher the resulting number, the tougher the material.看完之后，以前的J/M和K J/M2的单位换算总算清楚了，如果不考虑别的因素，单从厚度上考虑，I S O是除以截面积，而A S T M是除以厚度，A S T M除掉缺口后的宽度是10.2M M，那两者单位的换算就是J/M除以10.2后就是K J/M2，当然这个不考虑样条不同的影响。

1.目的检测本公司产品试样物理性能是否达到规定要求。

2.适用范围本作业指导书适用于冲击试验方法。

3.职责3.1技术部负责制定本作业指导书。

3.2实验室负责按本作业指导书进行冲击试验。

4.仪器设备CST-50冲击试样缺口投影仪JB-300B摆锤式冲击试验机VU-2V冲击试样手动拉床5.试样5.1冲击试样的切取按技术规范中规定执行。

如没有规定，取样位置应和拉伸试样的取样位置一样，取样方向应是纵向方向而且缺口与测试产品主要表面向垂直。

5.2当技术规范规定了最低平均时延结果值时，应测试3个试样；当及时规范要求测定转变温度时，通常需要8个到12个试样。

5.3对于厚度小于11mm的扁平材，或当冲击吸收功预计超过满刻度的8%时，应使用标准小尺寸试样。

对沿横向方向测试的管状材料，如果直径和壁厚的关系不允许使用标准全尺寸试样时，就得采用标准小尺寸试样。

5.4如不能制备标准全尺寸试样，则应制备尽可能最大的标准小尺寸试样。

应对试样进行加工，以便使试样不含有表面在0.5mm以下的部分。

5.5对于标准小尺寸试样，除宽度外，所有标准试样的尺寸和偏差都恒定，按照厚度为10mm 恒定、宽度变化分有7.5mm、6.7mm、5mm、3.3mm和2.5mm五种。

5.6在标准小尺寸试样的窄面开缺口与，使该缺口和10mm厚度的表面垂直。

5.7试样的制备应避免由于加工硬化或过热而影响金属的冲击性能。

5.9制备试样的电动拉床操作方法见《设备操作规程》中的《冲击试样液压电动拉床操作规程》。

5.10试样缺口的几何尺寸加工质量用冲击试样缺口投影仪来判断，具体操作见《设备操作规程》中的《冲击试样缺口投影仪操作规程》。

常用取样标准见附表1。

6.温度控制如果技术规范或购买方要求特殊的试验温度，则加热介质或冷却介质的温度变化控制范围为1℃。

对某些钢锻件，可不需要对温度予以限制，如奥氏体钢锻件。

另，一般要求的室内温度条件，即可在实验室温度15～32℃范围内的任何温度进行试验。