Stainless Steel Powder Injection Molding Lock Core Accessories
This series of equipment is oriented to the gold-loaded carbon in the gold cyanide carbon slurry process for gold desorption and electrolysis, and the gold adsorbed on the gold-loaded carbon is produced in the form of high-grade gold mud.
This series of equipment has 3 patented technologies and 5 proprietary technologies. Sodium cyanide is not used in the desorption liquid, which reduces the lean carbon grade below 100g/t. The key technology of this equipment is to ensure the balance of metal content, avoid the phenomenon of equipment "accumulation" and "floating gold", and ensure the stable and stable technical indicators of the equipment. The cost is low, and the content of technological advancement has been broadcast on the Spark Science and Technology column of CCTV in 2000. The technology passed the technical appraisal in 2003 and won the second prize of Science and Technology of the China Gold Association. The overall technical level is domestically leading. In 2006, it was designated as an energy-saving technology for gold production by the National Development and Reform Commission. In 2007, it was designated as an industry standard equipment by the National Development and Reform Commission. The equipment has obtained 3 Chinese patents, the patent numbers are: 01241537.5 01241538.5 200620029209.1
High-pressure Desorption Electrolysis,Gold Desorption Equipment,cyanide leaching,cyanide vat leaching Changchun Gold Research Institute Co.LTD , https://www.ccgrizbs.com
Fortunately, there are several parts of design such as hinges, fiber optic connector bases, and new style connectors are closely dependent on MIM technology. These products are being produced in a large number and MIM technology is being adopted by more and more.
MIM and CIM--Drome can provide one-stop service solution.
The basic attributes include:
1.Economical production of complex parts with weight from 0.03 to 200g from high-performance engineering materials.
2.Parts with high dimensional precision (±0.1%~±0.5%) and good surface quality (surface roughness 1~2μm).
3.Parts with high relative density (96%~100%), homogeneous microstructure and superior performance.
4.Adaptable to powders of various materials and wide application of the parts.
5.Material saving through the recycle of wastes, production process with high level of automation and suitable for mass production
Flow chart of metal injection molding
Application of MIM
Products Range:
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Material
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Typical Values
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Designation Code
Density g/cm3
Tensile Properties
Young's modulus, Gpa
Un-notched Charpy Impact Energy,J
Hardness,Rockwell
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Â
UTS. Mpa
Y.S. (0.2%), Mpa
Elongation (in 25.4mm) %
Â
Â
Macro (apparent)
 Micro (converted)
MIM-Fe2Ni
7.8
280
115
25
Â
Â
55 HRB
50HRCÂ Â Â Â
MIM-Fe8Ni
7.8
450
Â
12
Â
Â
84HRB
50HRCÂ Â Â Â
MIM-2200 (as sintered)
7.8
290
125
40.0
190
135
45 HRB
Â
MIM-2700 (as sintered)
7.8
415
255
26.0
190
175
69 HRB
Â
MIM-4605 (as sintered)
7.8
440
205
15.0
200
70
62 HRB
Â
MIM-4605 (Q&T)
7.8
1655
1480
2.0
205
55
48 HRC
55 HRC
MIM-304L
7.8
500
Â
70
Â
Â
60 HRB
Â
MIM-316L (as sintered)
7.85
520
175
50.0
190
190
67 HRB
Â
MIM-410
7.7
900
Â
7
Â
Â
Â
40 HRC
MIM-420 (heat treated)
7.7
1380
1200
12
190
40
Â
45-60HRC
MIM-430L (as sintered)
7.8
410
240
25.0
210
150
65 HRB
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MIM-440C
7.8
700
590
15
Â
Â
Â
45-60HRC
MIM-17-4PH (as sintered)
7.8
900
730
6.0
190
140
27 HRC
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MIM-17-4PH (heat treated)
7.8
1190
1090
6.0
190
140