CHM high temperature molybdenum alloy was developed successfully.
The high-temperature molybdenum wire and flat strip heating body were developed successfully, and were first used in high-temperature hydrogen furnace and high-temperature kiln.
CHM alloy has been successfully applied in the field of nuclear fuel sintering in China.
It has become the first one in China to use induction sintering furnace to sinter tungsten product blanks
Tungsten, molybdenum crucible, agitator rod, niobium alloy spoon and other products have been developed.
The combined heating body is used to replace the spraying W-tube heating body, thus greatly reducing the heating body cost
The thin tungsten film has been successfully developed and applied to the scanning film and shielding film of CT machine.
High-performance molybdenum extension products have been successfully developed and applied to gem production industry and electronic tube grid industry.
The special materials for tungsten and molybdenum in semiconductor industry have been developed.
The hot rolling equipment for W and Mo strip was developed.
The niobium-molybdenum alloy for rare earth smelting has been successfully developed.
Three patents of low oxygen MHC and TZM molybdenum alloy were applied for.
LED industry with heat field began mass production.
Typhoon Saomai has built a new 34,000 sq m plant in the Weihai industrial zone.
Shandong ge Mei Tungsten Molybdenum Material Co. , Ltd. began production.
The high performance tungsten crucible and the first 4.5 generation integrated molybdenum target in China have been developed.
Ultra-fine grain tungsten rod with grain number > 2000/mm2 has been developed.
A molybdenum tube target was developed.
The low oxygen mono alloy blank was developed.
The application of G 6 generation OLED to the largest molybdenum target in the world was studied.
Molybdenum-niobium alloy target was developed and applied to TFT-LCD liquid crystal panel.
Start developing MOTA targets.
G8.5 Generation W alloy target began to develop.
FPD began development with oxide targets.
G8.5 generation ternary molybdenum alloy target began to develop.
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