片语

thermal circulation cycle热环流循环

thermal cooling cycle冷热循环

thermal circulation热环流；热循环

thermal-cycle polarization循环变温极化

direct contact thermal storage cycle直接接触式蓄冷循环

thermocycling热循环

accelerated thermal cycle加速热循环

thermal efficiency of cycle循环热效率

thermal neutron cycle热中子循环

Thermal conversion cycle热转换循环

Thermal Halide Cycle温盐环流

英汉例句

• if the constrained thermal cycle stopped upon heating, the unloading stress strain curves exhibit a plateau immediately.

  如果在加热过程中停止加热并卸载，则卸载应力-应变曲线立即出现应力平台。

• similarly, the unloading stress-strain curves exhibited a linear elastic response followed by a stress plateau if the constrained thermal cycle stopped upon cooling.

  与之相似，如果在约束态冷却过程中停止冷却并卸载，卸载应力-应变曲线首先呈线弹性关系，然后才出现应力平台。

• the results showed that thermal cycle caused residual dimensional changes of the specimens, and with the fiber contents increasing, the extents of dimensional changes decrease obviously.

  研究结果表明，热循环能导致样品的尺寸发生变化。随着纤维体积分数的增加，样品的尺寸变形程度明显降低。

• the influences of welding process parameter and twice thermal cycle on the microstructure and properties of x80 pipeline steel are also investigated in this paper.

  本文还研究了焊接工艺参数和二次热循环峰值温度对实验钢x80组织性能的影响规律。

• weld thermal cycle simulation was used to reproduce the structure in the haz of single run and multi-layer welding.

  采用焊接热模拟再现了单道焊和多层焊haz的组织。

• thermal cycle is an important parameter to influence the mechanical properties of the welded joint.

  焊接热循环对焊接接头的性能影响至关重要。

• the peak temperature of the thermal cycle reduces with the increase of welding speed.

  焊接热循环的峰值温度随焊接速度的增大而降低。

• when the peak temperature of the second thermal cycle is 800℃, it forms net microstructure with chain structure in grain boundary and toughness decreases.

  当二次热循环峰值温度为800℃时，在原奥氏体晶界处形成明显的「链状」结构的网状组织，韧性有所下降；

• the toughness of weld metal is the highest while the coarse grained region in the haz is the lowest because of welding thermal cycle and formation of brittle microstructure.

  试验钢由针状铁素体和少量块状铁素体组成，焊缝为典型的针状铁素体组织，焊接热影响区粗晶区以粒状贝氏体为主。

• based on simulated aerospace thermal cycling test, the effect of thermal cycle on the fracture mechanism of lf6 aluminum alloy welded joint was investigated.

  采用真空热循环试验装置 ，模拟近地轨道空间环境 ，研究了lf6铝合金焊接接头拉伸性能和微观组织 ，分析讨论了真空热循环对焊接接头的影响规律。

• a new type of computer-aided testing and analyzing system for welding thermal cycle is presented in this paper. the system adopts computer technology and data processing methods.

  采用计算机软、硬件技术和数据处理方法，研究和开发了一种新型焊接热循环测试与分析系统。

• the result show that the microstructure formed after thermal cycle was mainly lath bainite and granular bainite in cghaz .

  结果表明：在不同的焊接热循环条件下，焊接粗晶区组织主要是板条贝氏体和粒状贝氏体。

• by the discussion of the thermal cycle characteristic of plasma beam surface metallurgy and metallurgical process, the heat-affected zone of the steel matrix was studied.

  通过对等离子束表面冶金热循环的特点和冶金过程的探讨，对钢基体热影响区进行了测试分析，并将热影响区划分为过热区、完全相变区和不完全相变区。

• welding thermal simulation technique is adopted to study the influences of twice thermal cycle on the structure and properties of x80 pipeline steel.

  通过焊接热模拟试验和沖击韧性试验，研究了不同预热温度对x80级管线钢组织性能的影响。

• test results indicate that haz toughness of the single thermal cycle will be greatly enganced when annealing temperature is at 500℃ but haz toughness of multiple thermal cycle will be decrease a bit.

  试验结果表明，退火温度为500℃时，单次热循环热影响区动性显着上升，而多次热循环热影响区韧性略有下降。

• a computer-aided system for testing and analyzing weld thermal cycle is presented in this paper.

  本文研究设计了一种焊接热循环参数测试及分析系统。

• the thermal cycle on the surface of friction welding joint was measured by means of thermocouples.

  结果表明，摩擦焊接头的温度场、飞边形状和轴向缩短量的计算结果和实验结果吻合较好。

• realization of test system for welding thermal cycle curve and phase transformation point;

  本文研究设计了一种焊接热循环参数测试及分析系统。

• this multilayer structure is then heated and fired in a single thermal cycle to remove any binder materials and sinter, respectively, the fuel cell.

  然后，在一单一热循环中对该多层结构进行加热并燃烧，从而除去任何粘结剂材料；并相应地对该燃料电池进行烧结。

• influence of weld thermal cycle and restraint strain on microstructure and mechanical properties of welding coarse grained region of eh36mod controlled rolling steel is investigated.

  研究了焊接热循环和拘束应变对eh36mod控轧钢焊接粗晶区的显微组织和力学性能的影响。

• the results show a certain time thermal cycle can cause the fracture mechanism change. it varies from original pure shear fracture to microvoid coalescence fracture gradually.

  结果表明，一定时间的热循环会造成lf6铝合金焊接接头断裂机理的改变，由未经热循环时的纯剪切型断裂，逐渐过渡成微孔聚集型断裂。

• when the peak temperature of the second thermal cycle is 1000℃, local brittleness with the large m-a islands in granular bainite appears during cooling process.

  而当二次热循环峰值温度为1000℃时，局部脆化现象严重。这与冷却时获得含有粗大m-a岛状组织的粒状贝氏体有关。

• the influence of welding thermal cycle on structure and properties in grain-coarsening region of x80 pipeline steel was investigated by weld thermal simulation technique and the charpy test.

  采用焊接热模拟试验和沖击试验，研究了x80管线钢焊接热循环对粗晶区组织性能的影响。

• the microstructures of weld metal and haz under different thermal cycle are analyzed correspondingly.

  分析了在不同焊接热循环条件下相应的部分易淬火钢焊缝及热影响区的显微组织。