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- W-Ni-Mn alloy is easier to come into being adiabatic shear band(ASB) than the conventional tungsten heavy alloy,and has higher adiabatic shear sensitivity. 可见90W-Ni-Mn合金较传统钨合金更易出现剪切带,具有更高的绝热剪切敏感性。
- A ratio of strength to thermal conductivity is proposed to characterize the adiabatic shearing sensitivity for steels. 摘要提出用钢的强度与热导率的比值(强导比)来表征钢的绝热剪切敏感性。
- Effect of several deformation mode on microstructure performance and adiabatic shear sensitivity of tungsten heavy alloy 几种变形方式对钨合金组织性能及绝热剪切敏感性的影响
- adiabatic shear sensitivity 绝热剪切敏感性
- Effects of Deformation on Microstructure Performance and Adiabatic Shearing Sensitivity of Tungsten Heavy Alloy 变形对钨合金微观组织性能及绝热剪切敏感性的影响
- Study of relationship between the ratio of strength to thermal conductivity and adiabatic shearing sensitivity of steels 钢的强导比与绝热剪切敏感性关系的研究
- It is also useful for analyzing formation of interface waves and the adiabatic shear bands(ASB). 通过数值与理论计算对爆炸焊接碰撞角、界面距离等因素对应变率的影响进行了讨论。
- Adiabatic shear instability will take place when the normal component of particle velocity excesses critical value. 发生绝热剪切失稳的条件是入射速度的法向分最大于碰撞过程的临界速度。
- There are two type of adiabatic shear bands,namely,the deformed bands,and the transformed bands. 结果表明,在快速加载条件下材料中有绝热剪切带生成。
- TEM observation showed that the center of the adiabatic shear band (ASB) was composed of recrystallized nano-grains (about 30-70 nm in diameter). TEM观察表明绝热剪切带(ASB)中心区域由30-70纳米的等轴晶组成。
- The formation mechanism of adiabatic shear band(ASB) produced by high speed penetration in 30MnCrNiMoB low alloy steel was studied. 研究了30MnCrNiMoB低合金钢在穿甲弹冲击下绝热剪切带(ASB)的形成机制。
- Electron diffraction patterns showed that the phase in adiabatic shear bands as crystal structure with some dislocation cells and dislocation snarl. 衍射证明绝热剪切带内组织为晶体结构,带内有位错胞和位错缠结;
- Research was conducted on characteristics of adiabatic shear bands (ASBs) in several steels by contained exploding cylinder technology. 研究了几种不同硬度和热导率的钢铁材料在约束爆破条件下的绝热剪切带特征。
- The existence of adiabatic shear band and the crack caused by the band are important features in dynamic torsion moment tests. 绝热剪切带的出现和由它引起的裂纹是动态扭矩试验时的重要特征。
- The primary results were obtained by evaluation of army ballistic limit,and observation of impact craters,the number and location of adiabatic shear bands and cracks. 观察不同弹速下钢板出现的损伤形貌,弹坑周围裂纹和绝热剪切带的形成位置和数量,评定背面强度极限。
- The fragments contained adiabatic shear band (ASB) in Ti 6Al 4V and AISI 6140 steel were studied by scanning electron microscope (SEM) and transmission electron microscope(TEM). 对含有约热剪切带(ASB)的TC4钛合金及40Cr钢破片作了扫描电镜(SEM)和透射电镜(TEM)分析。
- Microstructure and microhardness of adiabatic shear band(ASB) and those near ASB in medium carbon Cr-Ni-Mo-V ultra-high strength low alloy steel plate have been investigated. 测量了中碳Cr-Ni-Mo-V系低合金超高强度钢中绝热剪切带(ASB)及其周围金属的显微硬度,观察了其微观组织。
- The join strength,penetration depth and condition of emerging adiabatic shear instability are discussed with single particle of uniform speed and different angle. 针对单个粒子相同入射速度不同入射角度的碰撞条件,探讨粒子与基体的结合强度、侵彻深度以及绝热剪切失稳的发生条件。
- The adiabatic shear bands and microcracks all initiate near the inside wall and develop along the maximum shear stress curves to the outside wall of the cylinder. 破片金相分析表明,绝热剪切带和裂纹首先在圆管内壁附近产生,然后沿最大剪应力线向外壁扩展。
- The join strength, penetration depth and condition of emerging adiabatic shear instability are discussed with single particle of uniform speed and different angle. 针对单个粒子相同入射速度不同入射角度的碰撞条件,探讨粒子与基体的结合强度、侵彻深度以及绝热剪切失稳的发生条件。
