词或词组 | 中文 | 英文解释中文解释 |
---|---|---|
Ideal crack | 理想裂缝 |
A simplified model of a crack used in elastic-stress analysis. In a stress-free body, the crack has two smooth surfaces that are coincident and join within the body along a smooth curve called the crack front; in two-dimensional representations, the crack front is called the crack tip. 用于弹性应力分析的裂纹简化模型。在无应力物体中,裂纹有两个光滑表面,它们在物体内沿称为裂纹前缘的平滑曲线重合并连接;在二维表示中,裂纹前缘称为裂纹尖端。 |
Ideal critical diameter | 理想临界直径 |
(DI). Under an ideal quench condition, the bar diameter that has 50% martensite at the center of the bar when the surface is cooled at an infinitely rapid rate (that is, when H = ∞, where H is the quench severity factor). (DI)在理想淬火条件下,当表面以无限快的速度冷却时(即H=∞, 其中H是淬火严重度因子)。 |
Ideal gas laws | 理想气体定律 |
The law relating pressure, temperature and volume of an ideal (perfect) gas pV = mRT, where R is the gas constant. The law implies that at constant temperature T, the product of pressure p and volume V is constant (Boyle’s law), and at constant pressure, the volume is proportional to the temperature (Charles’ law). 与理想(完美)气体的压力、温度和体积相关的定律pV=mRT,其中R是气体常数。该定律意味着在恒定温度T下,压力p和体积V的乘积是恒定的(波义耳定律),而在恒定压力下,体积与温度成正比(查尔斯定律)。 |
Impact | 撞击 |
Sudden loading of a body or component, as in a vehicle collision or striking by a hammer. 物体或部件的突然加载,如车辆碰撞或锤击。 |
Impact energy (Unit J) | 冲击能量(单位J) |
The amount of energy required to fracture a material, usually measured by means of an Izod test or Charpy test.The type of specimen and test conditions affect the values and therefore should be specified. 1. The sum of the kinetic energies of all the bodies involved at the instant of collision of two or more moving bodies. 2. The energy required to fracture a specimen in a Charpy or Izod impact test. 使材料断裂所需的能量,通常通过悬臂梁式试验或夏比试验测量。试样类型和试验条件会影响数值,因此应加以说明。1.两个或多个运动物体碰撞瞬间所有物体的动能之和。2.夏比或悬臂冲击试验中断裂试样所需的能量。 |
Impact extrusion | 冲击挤压 |
The extrusion of separate components of soft metals whose properties permit the action to be performed quickly. 挤压单独的软金属组件,其特性允许快速执行操作。 |
Impact loads | 冲击载荷 |
Especially severe shock loads such as those caused by instantaneous arrest of a falling mass, shock meeting of two parts (in a mechanical hammer, for example), or by explosive impact, in which there can be an exceptionally rapid build-up of stress. 特别严重的冲击载荷,例如由下落质量的瞬时停止、两部分的冲击碰撞(例如在机械锤中)或爆炸性冲击引起的冲击载荷,其中可能会出现异常快速的应力积聚。 |
Impact strength | 冲击强度 |
The resiliency or toughness of a solid as measured by impact energy. 用冲击能量测量的固体的弹性或韧性。 |
Impact strength 1. (Unit Pa) | 冲击强度1.(单位Pa) |
The stress to cause failure (by yielding or fracture) under conditions of high strain rate. 2. (Unit J) A term sometimes used to describe the energy required to fracture a specimen in a Charpy or Izod impact test even though the unit is not that of strength. 在高应变率条件下导致失效(通过屈服或断裂)的应力。2.(单位J)有时用于描述在夏比或悬臂梁式冲击试验中使样品断裂所需的能量,即使单位不是强度单位。 |
Impact test | 碰撞测试 |
A test for determining the energy absorbed in fracturing a test piece at high velocity, as distinct from static test. The test may be carried out in tension, bending, or torsion, and the test bar may be notched or unnotched. 测定试件在高速下破裂时吸收的能量的试验,与静态试验不同。测试可以在拉伸、弯曲或扭转条件下进行,测试杆可以有缺口或无缺口。 |
Impact testing | 冲击测试 |
Determination of the mechanical properties of materials under high-rate conditions. Often determined from the behaviour of a testpiece when struck by a pendulum or a weight falling from a known height, or when sandwiched between two Hopkinson bars. 在高速条件下测定材料的机械性能。通常根据测试件在被钟摆撞击或从已知高度坠落的重物或夹在两个霍普金森棒之间时的行为来确定。 |
Impact wrench | 冲击扳手 |
An air- or electric-powered wrench in which multiple blows from tiny hammers are used to produce output torque to tighten fasteners. A pneumatically-or electrically-powered socket wrench used to tighten or loosen nuts through the application of torque in a rapid series of impulses. 一种气动或电动扳手,使用小锤子多次敲击来产生输出扭矩以拧紧紧固件,用于通过在一系列快速脉冲中施加扭矩来拧紧或松开螺母。 |
Imperial system | 英制单位体系 |
The units of measurement developed in the UK. Formerly known as the fps system, which is an abbreviation for the ‘foot-pound-second system of units. 英国开发的计量单位。以前称为fps系统,是“英尺-磅-秒(foot-pound-second)单位制”的缩写。 |
Imperial system of units | 英制单位 |
British imperial system of units) An obsolete system of units first defined in the British Weights and Measures Act of 1824. Its three base units were second (time), yard (length), and pound avoirdupois (mass). The imperial unit of capacity was the gallon. The many associated units introduced subsequently include cubic inch, cubic foot, cubic yard, pint, and quart for both liquid and dry measures of capacity (i.e. volume); ounce, hundredweight, short and long ton for avoirdupois mass; poundal for force; minute and hour for time; fahrenheit for temperature; and British thermal unit for energy. Closely related to the imperial system of units is the US customary system of units. Each imperial unit is now legally defined in terms of the metric (i.e. SI) equivalent. (英帝国单位制)1824年英国度量衡法首次定义的已被淘汰的单位制。其三个基本单位为秒(时间)、码(长度)和磅(质量)。容量的英制单位是加仑。随后引入的许多相关单位包括立方英寸、立方英尺、立方码、品脱和夸脱,用于液体和干燥容量测量(即体积);盎司,百分之一百重量,短吨和长吨,以保证重量;磅达表示力;以分钟和小时表示时间;华氏温度;英国热能单位。与帝国单位制密切相关的是美国习惯单位制。现在,每个英制单位在法律上都是以公制(即SI)当量来定义的。 |
Inch (in) | 英寸(in) |
A non-SI unit of length now defined as 25.4 mm. The conversion to SI is 1 in = 2.54 × 10−2 m. 现在定义为25.4毫米的非SI长度单位。转换为SI为1in=2.54×10-2m。 |
Inch-pound force/inch² | 英寸磅力/英寸² |
A non-SI unit for the specific work of fracture (fracture toughness). The conversion to SI is 1 in.lbf/in² = 1.751 268 × 102 J/m². 用于特定断裂功(断裂韧性)的非国际单位制单位。到SI的转换为1英寸。lbf/in²=1.751268×102J/m²。 |
Inclusions | 夹杂物 |
Small pieces of nonmetallic impurities trapped within the base metal of. 存在于金属基体中的小块非金属杂质。 |
Indentation hardness | 压痕硬度 |
The resistance of a material to indentation as determined by hardness testing. The indenter, which may be spherical or diamond shaped, is pressed into the surface of a metal under specified load for a given time. (Unit Pa or, non-SI, kgf/mm²) A measurement of hardness taken by means of an indenter, pressed into a material by a load, which makes a permanent impression. The hardness is given by the load divided by the projected (sometimes surface) area of the indentation. Plasticity theory shows that the hardness is about 2.5–3 times the uniaxial yield stress. 通过硬度测试确定的材料抗压痕的能力。压头可以是球形或菱形,在规定的载荷下压入金属表面一段时间。(单位Pa或,非国际单位制,kgf/mm²)通过压头测量硬度,压入材料,形成永久压痕。硬度由载荷除以压痕的投影(有时是表面)面积得出。塑性理论表明,硬度约为单轴屈服应力的2.5–3倍。 |
Induction hardening | 感应淬火 |
A surface-hardening process in which only the surface layer of a suitable ferrous workpiece is heated by electromagnetic induction to above the upper critical temperature and immediately quenched. 一种表面硬化工艺,在该工艺中,只有合适的含铁工件的表面层通过电磁感应加热到高于上临界温度,并立即淬火。 |
Induction heating | 感应加热 |
Heating by combined electrical resistance and hysteresis losses induced by subjecting a metal to the varying magnetic field surrounding a coil carrying alternating current. 通过将金属置于承载交流电的线圈周围的变化磁场中而引起的电阻和磁滞损耗的组合加热。 |
Induction tempering | 感应回火 |
Tempering of steel using low-frequency electrical induction heating. 钢的回火采用低频电感应加热。 |
Infinite life diagram | 无限疲劳寿命图 |
A simple plot experimentally derived fatigue-life data, showing the conditions required for infinite life. 一个简单的曲线图,实验得出的疲劳寿命数据,显示了无限寿命所需的条件。 |
Initial preload | 初始预载 |
The tension created in a single bolt as it is tightened. Will usually be modified by subsequent assembly operations or by in-service loads and conditions. 拧紧单个螺栓时产生的张力。通常会通过后续的装配操作或在役负载和条件进行修改。 |
Initial strain | 初始应变 |
The strain in a specimen immediately upon achieving the given loading conditions in a creep test (before creep occurs). Sometimes referred to as instantaneous strain. 在蠕变试验中(蠕变发生之前)达到给定载荷条件后,试样立即产生的应变。有时称为瞬时应变。 |
Initial stress | 初始应力 |
The stress produced by strain in a specimen immediately on achieving the given constant-strain conditions in a stress-relaxation test before stress-relaxation occurs. Sometimes referred to as instantaneous stress. 在应力松弛发生之前,在应力松弛试验中达到给定的恒定应变条件时,试样立即应变所产生的应力。有时称为瞬时压力。 |
Inspection gauge | 检验规 |
Any of various gauges used in manufacturing and quality control to check dimensions, finish, etc. 任何用于制造和质量控制的各种量规,以检查尺寸、光洁度等。 |
Intense quenching | 强烈淬火 |
Quenching in which the quenching medium is cooling the part at a rate at least two and a half times faster than still water. 淬火,其中淬火介质以比静水快至少两倍半的速度冷却零件。 |
Intercritical annealing | 临界退火 |
Any annealing treatment that involves heating to, and holding at, a temperature between the upper and lower critical temperatures to obtain partial austenitization, followed by either slow cooling or holding at a temperature below the lower critical temperature. 任何退火处理,包括加热至并保持在上临界温度和下临界温度之间的温度,以获得部分奥氏体化,然后缓慢冷却或保持在低于下临界温度的温度。 |
Intergranular cracking | 沿晶断裂 |
Cracking or fracturing that occurs between the grains or crystals in a polycrystalline aggregate. Also called intercrystalline cracking. 多晶聚集体中的晶粒或晶体之间发生的开裂或断裂。也称为晶间断裂。 |
Intergranular fracture | 沿晶破裂 |
Brittle fracture of a metal in which the fracture is between the grains, or crystals, that form the metal. Also called intercrystalline fracture. 金属的脆性断裂,断裂位于形成金属的晶粒或晶体之间。又称晶间破裂。 |
Intermediate annealing | 中间退火 |
Annealing wrought metals at one or more stages during manufacture and before final treatment. 在制造过程中和最终处理之前的一个或多个阶段对锻造金属进行退火。 |
International Bureau of Weights and Measures | 国际度量衡局IBWM |
(BIPM, Bureau International des Poids et Mesures) The intergovernmental organization which has the mandate to provide the basis for a single, coherent system of measurements, traceable to the International System of Units. (BIPM,国际计量局)政府间组织,其任务是为可追溯到国际单位制的单一、一致的计量系统提供基础。 |
International Practical Temperature Scale (IPTS) | 国际实用温标(IPTS) |
A close approximation to the thermodynamic temperature scale based upon the triple points of hydrogen (13.8 K), neon (24.6 K), oxygen (54.4 K), argon (83.8 K), mercury (234.3 K), and water (273.2 K); the melting point of gallium (302.9 K); and the freezing points of indium (429.7 K), tin (505.1 K), zinc (692.7 K), aluminium (933.5 K), silver (1 234.9 K), gold (1 337.3 K), and copper (1 基于氢(13.8K)、氖(24.6K)、氧(54.4K)、氩(83.8K),汞(234.3K)和水(273.2K)的三相点的热力学温度标度的近似值;镓的熔点(302.9K);铟(429.7K)、锡(505.1K)、锌(692.7K),铝(933.5K)、银(1234.9K)、金(1337.3K)和铜等。 |
International System of Units | 国际单位制 |
(SI system of units, Le Système international d’unités) The standard system of units now used almost universally in science and engineering except in the United States. The definitive reference on the SI is a booklet published by the International Bureau of Weights and Measures, often referred to as the BIPM SI Brochure. There are seven base units: metre (symbol m) for length; kilogram (kg) for mass; mole (mol) for amount of substance; second (s) for time; kelvin (K) for temperature; ampere (A) for electric current; and candela (cd) for luminous intensity. New SI unit definitions, based upon the values of the universal constants of nature (also termed the fundamental physical constants: the Avogadro constant, the Boltzmann constant, and the Planck constant), came into effect on 20 May 2019. Minor adjustments were also made to the values of these constants. In addition to the base units, there are 22 coherent derived units, including radian (rad) for plane angle, steradian (sr) for solid angle, hertz (Hz) for frequency, newton (N) for force, pascal (Pa) for pressure, joule (J) for energy, work, and amount of heat, and watt (W) for power and radiant flux. Recommended practice is to avoid combinations such as N/mm², MN/m² being preferred.(kg) for mass; mole (mol) for amount of substance; second (s) for time; kelvin (K) for temperature; ampere (A) for electric current; and candela (cd) for luminous intensity. New SI unit definitions, based upon the values of the universal constants of nature (also termed the fundamental physical constants: the Avogadro constant, the Boltzmann constant, and the Planck constant), came into effect on 20 May 2019. Minor adjustments were also made to the values of these constants. In addition to the base units, there are 22 coherent derived units, including radian (rad) for plane angle, steradian (sr) for solid angle, hertz (Hz) for frequency, newton (N) for force, pascal (Pa) for pressure, joule (J) for energy, work, and amount of heat, and watt (W) for power and radiant flux. Recommended practice is to avoid combinations such as N/mm², MN/m² being preferred. (国际单位制,Le Système international d\\\'unités)目前美国除外,在科学和工程中几乎是普遍使用的标准单位制。SI的最终参考是国际度量衡局出版的小册子,通常称为BIPM SI小册子。有七个基本单位:米(符号m)表示长度;质量为千克(kg);物质量的摩尔(mol);时间为秒;开尔文(K)表示温度;电流为安培(A);而坎德拉(cd)表示发光强度。新的国际单位制定义于2019年5月20日生效,该定义基于自然界的普遍常数(也称为基本物理常数:阿伏伽德罗常数、玻尔兹曼常数和普朗克常数)。这些常数的值也进行了少量调整。除了基本单位外,还有22个相干导出单位,包括平面角的弧度(rad)、立体角的斯特拉迪安(sr)、频率的赫兹(Hz)、力的牛顿(N)、压力的帕斯卡(Pa)、能量、功和热量的焦耳(J)以及功率和辐射通量的瓦特(W)。建议的做法是避免N/mm²、MN/m²等组合。 |
Interrupted aging | 分段时效 |
Aging at two or more temperatures, by steps, and cooling to room temperature after each step. 分为两个或两个以上的温度时效,按顺序并在每个步骤后冷却至室温。 |
Interrupted quenching | 间断淬火 |
A quenching procedure in which the workpiece is removed from the first quench at a temperature substantially higher than that of the quenchant and is then subjected to a second quenching system having a different cooling rate than the first. 在该淬火过程中,工件在显著高于淬火剂的温度下从第一次淬火中取出,然后经受具有不同于第一次淬火的冷却速率的第二次淬火系统。 |
Ion carburizing | 离子渗碳 |
A method of surface hardening in which carbon ions are diffused into a workpiece in a vacuum through the use of high-voltage electrical energy. Synonymous with plasma carburizing or glowdischarge carburizing. 一种表面硬化方法,利用高压电能将碳离子在真空中扩散到工件中。与等离子渗碳或辉光放电渗碳同义。 |
Ion nitriding | 离子氮化 |
A method of surface hardening in which nitrogen ions are diffused into a workpiece in a vacuum through the use of high-voltage electrical energy. Synonymous with plasma nitriding or glowdischarge nitriding. 一种表面硬化方法,其中氮离子通过使用高压电能在真空中扩散到工件中。与等离子体氮化或辉光放电氮化同义。 |
Isothermal annealing | 等温退火 |
Austenitizing a ferrous alloy and then cooling to and holding at a temperature at which austenite transforms to a relatively soft ferrite carbide aggregate. 将铁合金奥氏体化,然后冷却至奥氏体转变为相对软的铁素体碳化物集合体的温度并保持该温度。 |
Izod test | 悬臂梁试验 |
A type of impact test in which a V-notched specimen, mounted vertically, is subjected to a sudden blow delivered by the weight at the end of a pendulum arm. The energy required to break off the free end is a measure of the impact strength or toughness of the material. 一种冲击试验,其中垂直安装的V形切口试样受到摆臂末端重量的突然冲击。断开自由端所需的能量是材料冲击强度或韧性的量度。 |