并将这种联系用于控制硬质合金顶锤的质量。
Therefore such a correlation was used to control the quality of hard alloy anvil.
研究了稀土氧化物对人造金刚石用顶锤使用寿命的影响。
Effect of RE oxides on the service life of anvil used for synthesizing diamond has be investigated.
结果表明,添加适量的稀土氧化物可有效地延长顶锤的使用寿命。
The results show that the suitable addition of re oxides may effectively prolong the service life of anvil.
通过对结构参数的最佳值进行探讨,提出了一种新型的顶锤结构。
A new anvil structure is also presented based on a discussion on optimization of structural parameters.
硬质合金顶锤质量的无损定量检测,是保证顶锤质量的重要手段之一。
The nondestructive testing method for cemented carbide anvil is one of the important means for quality assurance.
建立了人造金刚石BE LT合成装置硬质合金顶锤的有限元分析模型。
The finite element analytical model was established for carbide anvil of artificial diamond BELT synthetic device.
研究了热处理对硬质合金各项性能的影响以及顶锤内部钴粘结相成分和结构的变化。
The effect of heat treatment on the various property of cemented carbide and variation of composition and structure of cobalt binder phase in the cemented carbide anvil have been studied.
提出一种加入补偿因压力损失导致顶锤位移产生的误差,并结合单神经元pid的控制方法。
A control method of compensation for the top hammer displacement error caused by pressure loss and combining the single neuron PID is proposed in this paper.
通过多年实践,研发出了一种新型的多元素复合块制作工艺,可以大幅度提高金刚石的品质,降低顶锤消耗。
Through practically research for many years, I invent a new technic for making multi-element pyrophyllite block, which can remarkably enhance the quality of diamond and reduce anvil consumption.
经现场使用试验证明,本研究所制备的具有梯度结构的硬质合金顶锤、涂层刀片以及硬质合金钻齿的使用性能均明显优于常规均匀结构的硬质合金。
Practical tests show that the performance of cemented carbide anvils, coated blade and drill bits with graded structure developed in this dissertation are superior to those with regular structure.
论述了锤模锻造锻件的顶出机构应达到的基本要求;介绍了顶出机构的几种形式及设计要点;
The main demands which must be attained for forgings ejection mechanism in drop hammer forging were discussed. several patterns and the design essentials of the ejection mechanism were introduced.
论述了锤模锻造锻件的顶出机构应达到的基本要求;介绍了顶出机构的几种形式及设计要点;
The main demands which must be attained for forgings ejection mechanism in drop hammer forging were discussed. several patterns and the design essentials of the ejection mechanism were introduced.
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