Preparation methods of amorphous alloys are reviewed with some methods for preparing bulk amorphous solid introduced.
综述了制备非晶的各种方法,介绍了大块非晶的制备途径,对一些方法特点进行了讨论,并对它们进行了初步对比。
The existing preparation methods for amorphous alloy were reviewed,especially for the bulk amorphous alloy.
对现有的制备非晶的各种方法进行了综述,重点介绍了大块非晶的制备方法,介绍并分析了大块非晶合金成分的选择原则,对非晶制备方法进行了明确的分类,并对它们的优缺点进行了讨论和初步的对比。
Some ways to prepare bulk amorphous solid were introduced.
综述了制备非晶的各种方法 ,介绍了大块非晶的制备途径 ,对一些方法特点进行了讨论 ,并对它们进行了初步对比。
Some measures of lessening large fragment and toe rock in medium-length hole blasting as well as their effects in Yongping Copper Mine are described.
介绍江西铜业公司永平铜矿针对中深孔爆破采矿中出现大块和根底现象所采取的措施及其效果。
The Thermo-physical Properties for the Bulk Amorphous Alloy and the Numerical Simulation during Its Cooling Process;
大块非晶合金的热物性及冷却过程的数值模拟
Optic Characteristics of Zr_(41.2)Ti_(13.8)Cu_(12.5)Ni_(10)Be_(22.5) Bulk Amorphous Alloy;
Zr_(41.2)Ti_(13.8)Cu_(12.5)Ni_(10)Be_(22.5)大块非晶的光学特性
Preparation of Bulk Amorphous Alloy with High Property in Rapidly Solidified Pow der Metallurgy;
快速凝固粉末冶金技术制备大块非晶材料
Research on reducing boulder yield of medium-length hole blasting;
降低中深孔爆破大块率的研究
Technology measures of lowing blasting boulder yield in Shuiyueyan surface limestone mine;
水月岩石灰石露天矿降低爆破大块率的技术措施
To lower blasted boulder yield is one of the most important technical considerations in deep-hole blasting operations of mine.
降低深孔爆破落矿大块率是矿山凿岩中的一个重要课题。
A new model for calculating the critical cooling rate of bulk metallic glass under non-isothermal condition;
大块非晶临界冷却速率的非等温转变计算模型
Based on the model for calculating the critical cooling rate of bulk metallic glasses under non-isothermal condition,a new model for calculating the critical cooling rate of alloy systems based on viscosity calculation is put forward in this paper.
在大块非晶临界冷却速率的非等温转变计算模型基础上提出了基于成分连续变化计算黏度的合金系临界冷速模型。
Ti-based bulk metallic glasses (BMGs) developed in the past decade have been reviewed in terms of their compositions, glass-forming abilities and mechanical properties.
综述了钛基大块非晶的成分-非晶形成能力的对应关系,总结了已知的钛基大块非晶的一次结晶相及力学性能,并阐述了钛基大块非晶的塑性变形机制,以及造成低塑性的因素和改善塑性的方法,着重介绍了铸造纳米结构钛合金的成分、组织和力学性能。