不锈钢粉

  • 网络Stainless steel powder;JSS
不锈钢粉不锈钢粉
  1. 316L不锈钢粉真空松装烧结的研究

    Study of Vacuum Tap Sintering 316L Stainless Steel Powder

  2. 采用粉末冶金静电模壁润滑和冷压/温压技术,通过对316L不锈钢粉进行压制和烧结,从而研究出压制过程中润滑剂EBS蜡粉的静电和润滑特性。

    In the present experiment , technology of powder metallurgy ( PM ) electrostatic die wall lubrication and cold / warm compaction has been experienced . Characteristics of static and lubrication of EBS wax in PM lubrication powder were investigated by compaction and sinter of 316L stainless steel .

  3. 50~钢表面激光熔覆不锈钢粉的研究

    Laser cladding of stainless steel on 50 ~ # steel substrate

  4. 采用反相悬浮热再生法,以纤维素为基质骨架,不锈钢粉为增重剂,用纤维素包埋不锈钢粉制备复合微球扩张床基质。

    Using the water-in-oil suspension thermal regeneration method , the composite matrix was prepared with cellulose as framework and stainless steel powder as inert weighted component .

  5. 本文着重探讨了以碳做还原剂对水雾化奥氏体不锈钢粉真空烧结过程及其力学性能的影响。

    The present paper has discussed emphatically the influences of using carbon as reducing agent on the vacuum sintering process of water-atomized austenite stainless steel powder and on its mechanical properties .

  6. 本文以不锈钢粉为增重剂,将其包埋于纤维素黏胶中,采用反相悬浮热再生法制备了一种新型扩张床复合基质。

    In this work , a new type of composite matrix was prepared with cellulose as the framework and stainless steel powder as the inert weighted through the water-in-oil suspension thermal regeneration method .

  7. 氧化锆、不锈钢复合粉体浆料流变性的研究

    Study on Rheological Properties of Stainless Steel and Zirconia Aqueous Suspensions

  8. 全不锈钢供粉筒,采用快拆式设计,清洁粉末便利快捷。

    The whole stainless steel powder tank is easy to dismantle and to clean the powder .

  9. 内置式高压静电发生器,采用德国进口电路、重量极轻的喷枪(仅450克)和全不锈钢的供粉桶。

    The built-in high voltage static generator applies very light spraying gun ( only450g ) with the electrical circuit imported from Germany and full stainless steel powder supply bucket .

  10. 不锈钢/Ni基微晶粉材溶解扩散连接特性采用熔盐法制备了Bi4Ti3O(12)微晶粉体,研究了制备工艺参数与Bi4Ti3O(12)微晶的形貌和尺寸之间的关系。

    Characteristic of solute-diffusion bonding between stainless steel and Ni-based micro-crystal powder ( application code : 200520078348 . 9 ) Anisotropic Bi_4Ti_3O_ ( 12 ) particles were synthesized by molten salt process .