H Beam,Section Steel,Shaped Steel Tianjin YF Steel Co., Ltd , https://www.youfametal.com
Application of MIM
Products Range:
Material
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Typical Values
Â
Â
Designation Code
Density g/cm3
Tensile Properties
Young's modulus, Gpa
Un-notched Charpy Impact Energy,J
Hardness,Rockwell
Â
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
Â
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
Â
MIM-17-4PH (heat treated)
7.8
1190
1090
6.0
190
140
33 HRC
40 HRC
Material
Density (g/cm³)
Tensile Strength (MPa)
elastic modulus (GPa)
(thermal conductivity) W/(m·K)
(Thermal Expansion) 10â»â¶/K
Copper (Cu)
8.9
100
130
250
13
Invar (Fe-36Ni)
8.0
300
205
20
5
Kovar Or F15 (Fe-29Ni-17Co)
8.0
480
200
17
4.9
Molybdenum-copper (Mo-15Cu)
10.0
210
280
170
7
Molybdenum-copper (Mo-20Cu)
9.9
200
280
145
6.5
Tungsten-copper (W-10Cu)
17.0
500
340
209
6
Tungsten-copper (W-20Cu)
16.0
560
290
247
7
Tungsten-copper (W-30Cu)
14.0
420
260
260
11
Aerospace
Airfoil Hinge, Rocket Nozzle, Guided Missile Spoiler, Turbine Blade Core
Auto Industry
Ignition Control Lock Parts, Turbo Charger Rotor, Valve Guide Rail, Brake Gear Parts and Sun Block Shack Parts
Electronics
Disc drive parts, Cable Connector, Electronic Valve Shell, Computer Print Head, Electronic Packaging Parts and Heat Sink Material
War Industry
Mine Rotor, Gun Trigger, Armor Piercer, Sight Base, Flechette Arrow and Shrapnel
Medical Industry
Orthopaedic Bracket, Internal Sewing Needle, Biopsy Forceps, Radiation-proof Cover
Daily Necessities
Watch Shell, Watch Belt, Watch Buckle, Golf Head and Ball Seat, Sport Shoe-buckle, PE Mechanical Parts, Hole Puncher, Fish Catch and Bias Hammer
Mechanical Industry
Irregular Milling Cutter, Cutting Tools, Micro Gears and Sewing Machine Parts
FAQ
1. How can I give you an offer?
Please send us product 2D/3D drawings.
PROCESS:
Customer Inquiry → Engineering Communication → Cost Analysis → Sales Analysis → Quote to Customer
» 1 Work Day Only
» Submit RFQ with complete commercial terms
2. How to transport?
For small quantity, we choose TNT, FEDEX, UPS etc.
For big quantity, air or sea would be available.
3. Packing details?
We attached our normal packing details: Plastic disc/carton.
If the customer has specified packing specification, we will pack according to the customer's requirement.
Company Profile
Scalpel Handle Surgical Blade by Metal Injection Molding Process MIM
Technics: MIM
Quoted Condition: 2D / 3D Drawing / Sample
Package: Carton, Plastic Bag, Export Package
OEM/ODM: Welcome
Precision Processing: Mixing, Injection, De-Binding, Sintering
Production Time: 15-30 Days
Weight: 14.8g
Size: 13.5*4 mm
Trademark: drome
Transport Package: Carton
Specification: 290*190
Origin: Suzhou, China
MIM (Metal Injection Molding) is the 5th generation of metal forming technology. Over the past 40 years, the process has evolved significantly, with increasing applications in the 3C industry. From its early stages to a mature state, MIM technology has witnessed the development and changes in the 3C market over the last decade. Fortunately, several key components such as hinges, fiber optic connector bases, and new-style connectors rely heavily on MIM technology. These products are now produced in large quantities, and MIM technology is being increasingly adopted by more industries.
MIM and CIM—Drome can provide a one-stop service solution. The main features include:
1. Economical production of complex parts weighing from 0.03g to 200g using high-performance engineering materials.
2. Parts with high dimensional accuracy (±0.1%~±0.5%) and excellent surface quality (surface roughness 1~2μm).
3. High relative density (96%~100%), uniform microstructure, and superior mechanical performance.
4. Compatibility with various powder materials and wide application across different industries.
5. Material savings through waste recycling, high automation in production, and suitability for mass manufacturing.
Flow chart of metal injection molding
H-shaped steel is an economical cross-section high-efficiency section with more optimized cross-sectional area distribution and a more reasonable strength-to-weight ratio. It is named because its cross-section is the same as the English letter "H". Since all parts of the H-shaped steel are arranged at right angles, the H-shaped steel has the advantages of strong bending resistance in all directions, simple construction, cost saving and light structural weight, and has been widely used.
H-shaped steel is a widely used profile in steel structure buildings today, and it has many differences compared with I-shaped steel. The first is the flange, and second, the inner surface of the flange has no inclination, and the upper and lower surfaces are parallel. The cross-sectional properties of H-beams are significantly better than traditional I-beams, channel steels and angle steels.
The two outer and inner sides of the H-shaped steel have no slope and are straight. This makes the welding and splicing of H-beams easier than I-beams, and has better mechanical properties per unit weight, which can save a lot of materials and construction time. The section of the I-Beam is well subjected to vertical pressure and resistant to tension, but the section size cannot resist torsion because the wing plate is too narrow. H steel is the opposite, both have their own advantages and disadvantages.