1)formability[f?:m?'biliti]成形性能
1.Weld-bead Migration and Formability of Tailor Welded Blank Based on Variable Blank Holding Force;变压边力对拼焊板焊缝移动和成形性能的影响
2.Investigation of formability for tailor-welded blank box based on variable blank-holder force over stroke;随行程变化变压边力拼焊板盒形件成形性能研究
3.Experimental study on formability of blanks after laser welding;激光拼焊板成形性能的试验研究
英文短句/例句
1.The Deformation Property of Casting AZ31 Mg Alloy and Precision Forming of Inner Spur Gear;连铸AZ31镁合金成形性能及内齿轮精密成形研究
2.Study on Forming Process Property of the ISFSL体内张拉成形空间网格结构成形性能研究
3.Study of mechanical properties and forming properties of ultra-fine grain ferrite steels超细晶铁素体钢的力学性能及成形性能研究
4.An Experimental Study of Stamping Formability of Wrought Magnesium Alloy Sheet变形镁合金板料冲压成形性能的实验研究
5.Investigation of the Formability of Incremental Sheet Forming under Different Tool Shapes不同压头形状下板料渐进成形性能研究
6.Research on formability of tailor welded blank box based on strain path基于应变路径的拼焊板盒形件成形性能研究
7.Numerical simulation on forming property in multi-point digitized stretch-forming多点数字化拉形成形性能的数值模拟分析
8.Hot Formability of Ti-Ni Alloy Sheet;Ti-Ni合金板材热成形性能研究
9.Research on Gas Bulging Forming of AZ31 Magnesium Alloy Sheet in High Temperature;AZ31镁合金板材高温气胀成形性能研究
10.Theoretical Study on Stamping Formability of Spot Welding Tailored Blanks;点焊拼接板冲压成形性能的理论分析
11.Wear-Friction Properties and Microstructure of Zn52Al40Cu2Si6 Alloy Prepared by Spray Deposition喷射成形Zn52Al40Cu2Si6微观形貌及耐磨性能
12.Research on Shape Forming Process and Load Behaviors of Post-tensioned and Shaped Barrel-vault后张拉整体成形筒拱的成形和承载力性能研究
13.Formation Ability and Characterization of Zr-Based Amorphous Alloys;Zr基非晶合金的形成能力与性能表征
14.Glass Formation Ability and Magnetic Properties of FeCoZrB AlloysFeCoZrB合金的非晶形成能力及磁性能研究
15.Not readily reactive with other elements; forming few or no chemical compounds.惰性的与其它元素反应不活泼的;不能形成或很少能形成化合物的
16.Formation Mechanism of the Microstructures and the Electrochemical Performance for Spherical Nickel Hydroxide;球形氢氧化镍的微结构形成机理与电化学性能
17.the plastic forces that create and wear down a mountain range.能形成和腐蚀山脉的塑性力
18.What are the chances of these molecules springing spontaneously into existence?这些分子自然形成的可能性有多大?
相关短句/例句
forming property成形性能
1.Density and hermeticity were measured, relativity between forming property and density was investigated.结果表明,添加硬脂酸和诱导铜不会带入杂质,能改善钨粉的成形性能,可以获得组织均匀、致密度高的W-15Cu复合材料。
2.Density and hermeticity were measured and the relativity of forming property and density was investigated.结果表明,添加硬脂酸和诱导铜没有带入杂质,能改善钨粉的成形性能,可以获得较高致密度的W/15Cu复合材料。
3.With the dynamic explicit finite element method and the Hill's anisotropic yield criterion,which is widely used in the current finite element analysis,the influence of various kinds of process parameters on the forming property of cup-drawing is analysized, and the developing trend is also predicted through the numerical simulation.采用动态显式有限元方法和目前在板料有限元数值模拟中最常用的Hill各向异性屈服准则对筒形件拉深过程的变形情况进行了分析,得到各种不同的工艺参数对板料成形性能的影响,从数值模拟方面预测各参数对简单筒形件拉深中的变形影响。
3)forming properties成形性能
1.Relationship of metal sheet mechanical properties index and pressing forming properties;板料机械性能指标与压制成形性能间的关系
2.Investigation on Forming Properties of Patch Type TWB;点焊拼接板成形性能的研究
3.TopSolid-based calculation of extended size and analysis of forming properties of stamping part基于TopSolid的冲压件展开尺寸计算与成形性能分析
4)forming performance成形性能
1.Application of variable blank-holder pressure controlling technology in improvement of forming performance of splice-welded plate;应用变压边力控制技术改善拼焊板的成形性能
2.The function of the blank holder force(BHF)as well as its influence on the forming performance and forming accuracy of combined stepped-hole were analyzed.分析了压边力的作用及其大小对这种复合台阶孔成形性能和成形质量的影响。
3.The function of the blank holder force(BHF)as well as its influence on the forming performance and forming accuracy of workpieces were analyzed.分析了压边力的作用及其大小对成形性能和成形质量的影响,提出了适用于这种冲锻组合工艺的压边条件,并进行了工艺试验验证。
5)microforming behavior微成形性能
6)forming fabric performance成形网性能
延伸阅读
不锈钢的物理性能、力学性能和耐热性能不锈钢的物理性能 不锈钢和碳钢的物理性能数据对比,碳钢的密度略高于铁素体和马氏体型不锈钢,而略低于奥氏体型不锈钢;电阻率按碳钢、铁素体型、马氏体型和奥氏体型不锈钢排序递增;线膨胀系数大小的排序也类似,奥氏体型不锈钢最高而碳钢最小;碳钢、铁素体型和马氏体型不锈钢有磁性,奥氏体型不锈钢无磁性,但其冷加工硬化生成成氏体相变时将会产生磁性,可用热处理方法来消除这种马氏体组织而恢复其无磁性。 奥氏体型不锈钢与碳钢相比,具有下列特点: 1)高的电阴率,约为碳钢的5倍。 2)大的线膨胀系数,比碳钢大40%,并随着温度的升高,线膨胀系数的数值也相应地提高。 3)低的热导率,约为碳钢的1/3。 不锈钢的力学性 不论不锈钢板还是耐热钢板,奥氏体型的钢板的综合性能最好,既有足够的强度,又有极好的塑性同时硬度也不高,这也是它们被广泛采用的原因之一。奥氏体型不锈钢同绝大多数的其它金属材料相似,其抗拉强度、屈服强度和硬度,随着温度的降低而提高;塑性则随着温度降低而减小。其抗拉强度在温度15~80°C范围内增长是较为均匀的。更重要的是:随着温度的降低,其冲击韧度减少缓慢,并不存在脆性转变温度。所以不锈钢在低温时能保持足够的塑性和韧性。 不锈钢的耐热性能 耐热性能是指高温下,既有抗氧化或耐气体介质腐蚀的性能即热稳定性,同时在高温时双有足够的强度即热强性。 不锈钢国际标准标准 标准 标准名 GB 中华人民共和国国家标准(国家技术监督局) KS 韩国工业标准协会规格Korean Standard AISI 美国钢铁协会规格America Iron and Steel Institute SAE 美国汽车技术者协会规格Society of Automative Engineers ASTM 美国材料试验协会规格American Society for Testing and Material AWS 美国焊接协会规格American Welding Society ASME 美国机械技术者协会规格American Society of Mechanical Engineers BS 英国标准规格British Standard DIN 德国标准规格Deutsch Industria Normen CAS 加拿大标准规格Canadian Standard Associatoin API 美国石油协会规格American Petroleum Association KR 韩国船舶协会规格Korean Resister of Shipping NK 日本省事协会规格Hihon Kanji Koki LR 英国船舶协会规格Llouds Register of Shipping
