采用激冷斜槽法和低过热法进行浇注料坯的试验,在试验中研究了不同浇注温度和冷却板倾斜角度对所浇注料坯的微观组织的影响。
The experience was conducted using cooling slope and low superheat processes, effects of pouring temperature and the degree of slope on the billet's structure were researched.
采用示波冲击试验方法研究了具有不同微观组织高强度管线钢的夏比冲击性能。
The Charpy impact properties of high strength pipeline steel with different microstructures have been studied through a series of the instrumented impact tests.
研究了不同回火温度对XCQ16钢微观组织和力学性能的影响,试验结果表明:xcq 16钢具有较宽的回火温度范围。
Effect of tempering process on the microstructure and mechanical properties of XCQ16 steel was investigated. The results show that XCQ16 steel present a wider tempering temperature range.
采用真空热循环试验装置,模拟近地轨道空间环境,研究了LF 6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。
The tensile properties and microstructure of LF6 aluminum alloy weld joint under simulating near earth space environment are studied by means of vacuum thermal cycling system.
用微观组织分析、杆盘式磨损、湿磨法磨损和冲击韧性等试验手段,对高铬铸铁衬板的显微组织、力学性能和耐磨性进行了试验分析。
Failure analysis of high chromium cast iron liner has been studied by the microstructure, pole-pan wear abrasion, wet grinding and impact toughness.
对其微观组织及性能进行了测试和表征,并对添加剂、试验工艺等影响因素进行了分析。
Also the PTC materials microstructure was characterized, and its samples property was tested, and the technology factors, the additives so on was analysed.
采用金相显微镜研究了其微观组织,并通过拉伸试验及硬度测试对其力学性能进行了分析。
The microstructure was studied using metallographic microscope, and their mechanical properties were analyzed through tensile test and hardness test.
通过热模拟试验和工业性试验,研究了Q235钢微观组织演变规律及其与力学性能的关系。
Microstructure evolution and the relationship between microstructure and mechanical properties of Q235 steel were studied by thermal simulation and industrial tests.
试验证明,模糊控制技术的应用提高了该装置的温度控制效果,实现了良好稳定的铝金属半固态浆料微观组织控制作用。
The practical application verifies that fuzzy control can improve the temperature-control efficiency of the apparatus, realizing the ideal control for microstructure of semis...
试验证明,模糊控制技术的应用提高了该装置的温度控制效果,实现了良好稳定的铝金属半固态浆料微观组织控制作用。
The practical application verifies that fuzzy control can improve the temperature-control efficiency of the apparatus, realizing the ideal control for microstructure of semis...
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