The vacuum furnace is adapted to meet both vacuum sintering and carburizing at negative pressure.
负压渗碳的设备是对真空炉进行改造,使得真空炉能够进行真空烧结和气氛负压渗碳。
Vacuum sintering and sintering in hydrogen atmosphere of warm-compacted green compacts has been studied.
研究了铁粉温压压坯在真空和氢气中的烧结行为。
We adopt a rule of three steps fuzzy control system applying to temperature control of vacuum sintering furnace.
采用了一种三段规则的模糊控制策略,对真空烧结炉的温度进行控制。
In the temperature control system recreation of the vacuum sintering furnace, a advanced temperature controller was used.
利用智能温度控制器,改造了真空烧结炉温度控制系统。
The alloy powder was produced by gas atomization. P/M material samples were made by pressing and sequent vacuum sintering.
通过气喷气冷法制取合金粉末,用压制后真空烧结的方法制备高铝锌基合金粉末冶金材料。
Powder sintering: mixture, powder manufacturing, blending, pressing and vacuum or anti-vacuum sintering for all kinds of samples.
粉末烧结:各种粉末样品的配料、制粉、混料、压制、真空或非真空烧结等。
The sintering treatment includes protective atmosphere sintering, vacuum sintering, hot pressing, hot isostatic pressing and spark plasma sintering.
所述烧结包括保护气氛烧结、真空烧结、热压、热等静压、放电等离子体烧结。
Study is made of the effects and effecting mechanisms of a new type of grain growth inhibitor on vacuum sintering behavior of nanometer cemented carbide.
研究了一种新型晶粒长大抑制剂对纳米硬质合金真空烧结行为的影响,探讨了其影响机理。
The microstructure and mechanical properties of the alloy under the conditions of vacuum sintering and hot isostatic pressing sintering were investigated.
研究了合金在真空烧结和热等静压烧结条件下的显微组织和力学性能。
Using back scattered electrons, co - % magnetism meter, coercive force meter and chemical analysis etc, the compositions, co - % magnetism and coercive force of vacuum sintering cermets are studied.
用背散射电子像、钴磁仪、矫顽磁力计、化学分析等手段研究了真空烧结金属陶瓷合金的成分、晶格常数与其钴磁及矫顽磁力的关系。
TEM, XRD were used to study the changes on particle size and crystal phase of nanometer copper after sintering in vacuum.
用TEM、XRD等方法研究了蒸发法制备的纳米铜粒子真空烧结后粒子尺寸及晶相的变化。
A ternary boride cermet clad material was fabricated on the Q235 steel substrate by means of the vacuum liquid phase sintering technique.
采用真空液相烧结法,在Q 235钢表面制备三元硼化物基金属陶瓷覆层材料。
Therma fatigue behaviors of Ni base alloy-chromium carbide composite coating made by a vacuum fusion sintering method are discussed in this paper.
研究了用真空熔烧法制得的镍基合金-碳化铬复合涂层的热疲劳行为。
Ternary boride based cermet cladding material was prepared by in situ reaction and liquid phase sintering technology in vacuum furnace.
在真空烧结炉中通过原位反应液相烧结工艺制备出三元硼化物基金属陶瓷覆层。
The sintering quality and shrinkage of the sintering parts were compared under vacuum or hydrogen atmosphere and different sintering temperature and heating rate.
通过采用真空烧结和氢气气氛烧结、改变烧结升温速率和烧结温度,对比了烧结件的烧结质量和烧结收缩等情况。
The results show that interface element diffusion and reaction on interface in vacuum hot-pressing sintering processing improved interface strength. Fracture occurred mainly in Al matrix.
结果表明,真空烧结过程中出现了界面反应,改善了界面结合强度,断裂破坏主要在基体上进行。
The material can be prepared to transparent ceramic with excellent transparency with the processes of hot pressing, hot isostatic pressing and vacuum and hydrogen gas sintering.
采用热压、热等静压和真空、氢气中烧结工艺、可将上述材料制备成具有良好透明性的透明陶瓷。
Abstract :Graphene oxide/copper (GO/Cu) composites were successfully synthesized through the ball milling and vacuum hot press sintering process.
采用球磨和真空热压烧结方法成功制备氧化石墨烯/铜复合材料。
The dielectric properties of ferroelectric materials such as barium titanate are upgraded by sintering the dry pressed shapes in a vacuum having partial air pressures of 1 to 1000 microns.
在空气分压为1至1000微米汞柱的真空度下进行烧结干压成型,可以提高钛酸钡等铁电材料的介电性能。
The densification of SiC composite powders was carried out by vacuum pressureless sintering.
采用真空无压烧结进行碳化硅复合粉体的烧结致密化。
The technique of vacuum fusion sintering is introduced emphatically.
重点介绍了采用真空熔烧法制备功能梯度材料。
Preliminary dehydration, granulation and sintering of vacuum-filter dust containing 40% of water can continuously be accomplished in wet rotary kiln.
用湿式回转窑工艺设备,在窑内相继对真空过滤机产生的尘泥(含水40%左右)进行初步干燥、造粒、烧结三个过程。
Preliminary dehydration, granulation and sintering of vacuum-filter dust containing 40% of water can continuously be accomplished in wet rotary kiln.
用湿式回转窑工艺设备,在窑内相继对真空过滤机产生的尘泥(含水40%左右)进行初步干燥、造粒、烧结三个过程。
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