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Specialized in AM
Metal Materials
Material Technology Innovations Co., Ltd.
Tel : +86-(0)20-31040619
Fax : +86-(0)20-31137832
Email: [email protected]
Address:
Room 501, Building 3, TUS Park, 63 Chuangqi Road,
Shilou Town, Panyu District, Guangzhou, China
Postal Code: 511447
About MTIMaterial Technology Innovations Co., Ltd. ( MTI ) was esta-
blished in Guangzhou, China in 2014 and began as an
energetic start-up.
Since its foundation, the company has been devoted to Additive Manufacturing ( AM ), employing
engineers in a wide variety fields, from materials, chemistry, mechanical and powder metallurgy s-
cience. MTI’s cutting edge 1,200 sqm production facility is equipped with gas atomization systems
for production of spherical metal powders. At the same time, MTI’s R&D lab utilizes state-of-the-
art equipments to study the properties of AM metal materials, as well as their performances on AM
machines.
MTI’s major products include: Cobalt Based Alloys, Nickel Based Alloys, Stainless Steel, Tool Steel
and other special materials powders. Titanium & Titanium Based Alloys are being developed and
are expected to be launched within 2017. In addition, MTI is always willing to develop customized
powders with partners.
In future, with the aim of supplying extensive solutions for AM metal materials, MTI is scheduled
to expand the activities with novel technologies for materials production.
@MTI_ltd
@MTI
Specialized in AM
Metal Materials
Material Technology Innovations Co., Ltd.
Tel : +86-(0)20-31040619
Fax : +86-(0)20-31137832
Email: [email protected]
Address:
Room 501, Building 3, TUS Park, 63 Chuangqi Road,
Shilou Town, Panyu District, Guangzhou, China
Postal Code: 511447
About MTIMaterial Technology Innovations Co., Ltd. ( MTI ) was esta-
blished in Guangzhou, China in 2014 and began as an
energetic start-up.
Since its foundation, the company has been devoted to Additive Manufacturing ( AM ), employing
engineers in a wide variety fields, from materials, chemistry, mechanical and powder metallurgy s-
cience. MTI’s cutting edge 1,200 sqm production facility is equipped with gas atomization systems
for production of spherical metal powders. At the same time, MTI’s R&D lab utilizes state-of-the-
art equipments to study the properties of AM metal materials, as well as their performances on AM
machines.
MTI’s major products include: Cobalt Based Alloys, Nickel Based Alloys, Stainless Steel, Tool Steel
and other special materials powders. Titanium & Titanium Based Alloys are being developed and
are expected to be launched within 2017. In addition, MTI is always willing to develop customized
powders with partners.
In future, with the aim of supplying extensive solutions for AM metal materials, MTI is scheduled
to expand the activities with novel technologies for materials production.
@MTI_ltd
@MTI
Cobalt
Based
Alloy
Fe Ni Cr Mo Nb/Ta Ti Al Co Mn Si Cu C O
Titanium
&
Titanium
Alloy
Nickel
Based
Alloy
Tool
Steel
&
Stainless
Steel
&
Iron
Chemical Composition
The composition of MTI’s products are in accorda-
nce with the materials standards. Thanks to our se-
lf-developed production lines, MTI can control and
fine tune parameters to ensure customer specifica-
tions are met.
Powder Particle Size Distribution
Metal powders can be used by different technologies,
and each has its unique requirements on particle size
distribution. In addition to our conventional PSD ( 15~
63μm), MTI is capable of supplying powders with cus-
tomized PSD.
Chemical Composition
Product Class Product Name Printer Type Material Type Typical Application
Products for
Additive Manufacturing
Cobalt Based Alloy
Titanium & Titanium Alloy
Nickel Based Alloy
Tool Steel & Stainless Steel & Iron
Product
Name
Printer
Type
Material
Type
Chemical Composition Wt%
Applications
Aerospace
AutomotiveArtistic Design
Medical
Parts for the aerospace have complex structures, AM provides the
most efficient manufacturing method for preparation of these co-
mponents. According to the different working environments, sele-
cting the appropriate metal alloy can significantly shorten the lead
time.
Materials: Titanium & Titanium Alloys, Aluminum Alloys, Magnes-
ium Alloys, etc.
AM's customized characteristics determine that it will certainly ov-
erturn the traditional medical industry. Dental applications, bio-im-
plants and other medical applications have strict requirements on
personalized design. Metallic materials with good bio-compatibili-
ty will certainly be widely used.
Materials: Cobalt Based Alloys, Titanium & Titanium Alloys, etc.
In the past, creative designs were always bound by conventional p-
rocess techniques. With the advent of AM, this situation is expected
to be completely broken. Designers can follow their own unique id-
eas to design, and turn them into reality by using AM technology.
Materials: Stainless Steels, Titanium & Titanium Alloys, Precious
Metals, etc.
With the development of design concept, designs for the automo-
tive industry increasingly rely on AM technology. And ergonomic
design of the car has gradually become the future trend. Lightwei-
ght level of the car will also be further developed by AM.
Materials: Titanium Alloys, Aluminum Alloys, Magnesium Alloys, etc.
Mold
With the characteristics of AM technology, the idea of annular inner
flowpath, which can effectively cool down the mold, eventually imp-
lements in this sector. It subverts the traditional mold concepts, and
further promotes the development of mold industry.
Materials: Tool Steels, Stainless Steels, etc.
Surgical implants (bone, joint, etc)
Dental prostheses (bridge, crown, etc)
Aerospace (turbine, engine blade, etc)
Chemical & medical devices
Aerospace (turbine, nozzle, engine, etc)
Nuclear & chemical (valve, drive device)
Injection mold (annular inner flowpath)
Metalware (prototype, special tool, etc)
Automotive (turbine, fixed part, rocker arm)
Medical devices & work of art
Prototype & work of art
Basic material (new material & process)
IN625
IN718
IN625
IN718
5.5-9.025-28
27-30
0.30
0.35 5.0-7.0 0.5
0.1 5.5-9.0
0.2
Other (total)
50-55
3.15-4.15
4.75-5.50 0.65-1.15
0.07
≤ ≤
≤ ≤ ≤ ≤ ≤
≤≤ ≤
≤
≤≤
≤
≤≤
≤≤
≤≤≤
≤
≤
≤
≤
≤
≤
≤≤
≤
≤
≤≤
≤≤
≤
≤
≤
≤
≤ ≤
≤
≤
≤
Chemical Composition Wt%
Chemical Composition Wt%
Chemical Composition Wt%
Product
Name
Printer
Type
Material
Type
Product
Name
Printer
Type
Material
Type
Product
Name
Printer
Type
Material
Type
Surgical implants (bone, joint, etc)
Dental prostheses (bridge, crown, etc)
Surgical implants (bone, joint, etc)
Dental prostheses (bridge, crown, etc)
Aerospace (turbine, nozzle, engine, etc)
Nuclear & chemical (valve, drive devices)
Automotive (turbine, fixed part, rocker arm)
Medical devices & work of art
Automotive (turbine, fixed part, rocker arm)
Medical devices & work of art
Ti6Al4VTi6Al4V
≤
0.20
0.30≤ ≤ ≤≤
≤
≤
≤
≤
≤ ≤ ≤ ≤
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Cobalt
Based
Alloy
Fe Ni Cr Mo Nb/Ta Ti Al Co Mn Si Cu C O
Titanium
&
Titanium
Alloy
Nickel
Based
Alloy
Tool
Steel
&
Stainless
Steel
&
Iron
Chemical Composition
The composition of MTI’s products are in accorda-
nce with the materials standards. Thanks to our se-
lf-developed production lines, MTI can control and
fine tune parameters to ensure customer specifica-
tions are met.
Powder Particle Size Distribution
Metal powders can be used by different technologies,
and each has its unique requirements on particle size
distribution. In addition to our conventional PSD ( 15~
63μm), MTI is capable of supplying powders with cus-
tomized PSD.
Chemical Composition
Product Class Product Name Printer Type Material Type Typical Application
Products for
Additive Manufacturing
Cobalt Based Alloy
Titanium & Titanium Alloy
Nickel Based Alloy
Tool Steel & Stainless Steel & Iron
Product
Name
Printer
Type
Material
Type
Chemical Composition Wt%
Applications
Aerospace
AutomotiveArtistic Design
Medical
Parts for the aerospace have complex structures, AM provides the
most efficient manufacturing method for preparation of these co-
mponents. According to the different working environments, sele-
cting the appropriate metal alloy can significantly shorten the lead
time.
Materials: Titanium & Titanium Alloys, Aluminum Alloys, Magnes-
ium Alloys, etc.
AM's customized characteristics determine that it will certainly ov-
erturn the traditional medical industry. Dental applications, bio-im-
plants and other medical applications have strict requirements on
personalized design. Metallic materials with good bio-compatibili-
ty will certainly be widely used.
Materials: Cobalt Based Alloys, Titanium & Titanium Alloys, etc.
In the past, creative designs were always bound by conventional p-
rocess techniques. With the advent of AM, this situation is expected
to be completely broken. Designers can follow their own unique id-
eas to design, and turn them into reality by using AM technology.
Materials: Stainless Steels, Titanium & Titanium Alloys, Precious
Metals, etc.
With the development of design concept, designs for the automo-
tive industry increasingly rely on AM technology. And ergonomic
design of the car has gradually become the future trend. Lightwei-
ght level of the car will also be further developed by AM.
Materials: Titanium Alloys, Aluminum Alloys, Magnesium Alloys, etc.
Mold
With the characteristics of AM technology, the idea of annular inner
flowpath, which can effectively cool down the mold, eventually imp-
lements in this sector. It subverts the traditional mold concepts, and
further promotes the development of mold industry.
Materials: Tool Steels, Stainless Steels, etc.
Surgical implants (bone, joint, etc)
Dental prostheses (bridge, crown, etc)
Aerospace (turbine, engine blade, etc)
Chemical & medical devices
Aerospace (turbine, nozzle, engine, etc)
Nuclear & chemical (valve, drive device)
Injection mold (annular inner flowpath)
Metalware (prototype, special tool, etc)
Automotive (turbine, fixed part, rocker arm)
Medical devices & work of art
Prototype & work of art
Basic material (new material & process)
IN625
IN718
IN625
IN718
5.5-9.025-28
27-30
0.30
0.35 5.0-7.0 0.5
0.1 5.5-9.0
0.2
Other (total)
50-55
3.15-4.15
4.75-5.50 0.65-1.15
0.07
≤ ≤
≤ ≤ ≤ ≤ ≤
≤≤ ≤
≤
≤≤
≤
≤≤
≤≤
≤≤≤
≤
≤
≤
≤
≤
≤
≤≤
≤
≤
≤≤
≤≤
≤
≤
≤
≤
≤ ≤
≤
≤
≤
Chemical Composition Wt%
Chemical Composition Wt%
Chemical Composition Wt%
Product
Name
Printer
Type
Material
Type
Product
Name
Printer
Type
Material
Type
Product
Name
Printer
Type
Material
Type
Surgical implants (bone, joint, etc)
Dental prostheses (bridge, crown, etc)
Surgical implants (bone, joint, etc)
Dental prostheses (bridge, crown, etc)
Aerospace (turbine, nozzle, engine, etc)
Nuclear & chemical (valve, drive devices)
Automotive (turbine, fixed part, rocker arm)
Medical devices & work of art
Automotive (turbine, fixed part, rocker arm)
Medical devices & work of art
Ti6Al4VTi6Al4V
≤
0.20
0.30≤ ≤ ≤≤
≤
≤
≤
≤
≤ ≤ ≤ ≤
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Cobalt
Based
Alloy
Fe Ni Cr Mo Nb/Ta Ti Al Co Mn Si Cu C O
Titanium
&
Titanium
Alloy
Nickel
Based
Alloy
Tool
Steel
&
Stainless
Steel
&
Iron
Chemical Composition
The composition of MTI’s products are in accorda-
nce with the materials standards. Thanks to our se-
lf-developed production lines, MTI can control and
fine tune parameters to ensure customer specifica-
tions are met.
Powder Particle Size Distribution
Metal powders can be used by different technologies,
and each has its unique requirements on particle size
distribution. In addition to our conventional PSD ( 15~
63μm), MTI is capable of supplying powders with cus-
tomized PSD.
Chemical Composition
Product Class Product Name Printer Type Material Type Typical Application
Products for
Additive Manufacturing
Cobalt Based Alloy
Titanium & Titanium Alloy
Nickel Based Alloy
Tool Steel & Stainless Steel & Iron
Product
Name
Printer
Type
Material
Type
Chemical Composition Wt%
Applications
Aerospace
AutomotiveArtistic Design
Medical
Parts for the aerospace have complex structures, AM provides the
most efficient manufacturing method for preparation of these co-
mponents. According to the different working environments, sele-
cting the appropriate metal alloy can significantly shorten the lead
time.
Materials: Titanium & Titanium Alloys, Aluminum Alloys, Magnes-
ium Alloys, etc.
AM's customized characteristics determine that it will certainly ov-
erturn the traditional medical industry. Dental applications, bio-im-
plants and other medical applications have strict requirements on
personalized design. Metallic materials with good bio-compatibili-
ty will certainly be widely used.
Materials: Cobalt Based Alloys, Titanium & Titanium Alloys, etc.
In the past, creative designs were always bound by conventional p-
rocess techniques. With the advent of AM, this situation is expected
to be completely broken. Designers can follow their own unique id-
eas to design, and turn them into reality by using AM technology.
Materials: Stainless Steels, Titanium & Titanium Alloys, Precious
Metals, etc.
With the development of design concept, designs for the automo-
tive industry increasingly rely on AM technology. And ergonomic
design of the car has gradually become the future trend. Lightwei-
ght level of the car will also be further developed by AM.
Materials: Titanium Alloys, Aluminum Alloys, Magnesium Alloys, etc.
Mold
With the characteristics of AM technology, the idea of annular inner
flowpath, which can effectively cool down the mold, eventually imp-
lements in this sector. It subverts the traditional mold concepts, and
further promotes the development of mold industry.
Materials: Tool Steels, Stainless Steels, etc.
Surgical implants (bone, joint, etc)
Dental prostheses (bridge, crown, etc)
Aerospace (turbine, engine blade, etc)
Chemical & medical devices
Aerospace (turbine, nozzle, engine, etc)
Nuclear & chemical (valve, drive device)
Injection mold (annular inner flowpath)
Metalware (prototype, special tool, etc)
Automotive (turbine, fixed part, rocker arm)
Medical devices & work of art
Prototype & work of art
Basic material (new material & process)
IN625
IN718
IN625
IN718
5.5-9.025-28
27-30
0.30
0.35 5.0-7.0 0.5
0.1 5.5-9.0
0.2
Other (total)
50-55
3.15-4.15
4.75-5.50 0.65-1.15
0.07
≤ ≤
≤ ≤ ≤ ≤ ≤
≤≤ ≤
≤
≤≤
≤
≤≤
≤≤
≤≤≤
≤
≤
≤
≤
≤
≤
≤≤
≤
≤
≤≤
≤≤
≤
≤
≤
≤
≤ ≤
≤
≤
≤
Chemical Composition Wt%
Chemical Composition Wt%
Chemical Composition Wt%
Product
Name
Printer
Type
Material
Type
Product
Name
Printer
Type
Material
Type
Product
Name
Printer
Type
Material
Type
Surgical implants (bone, joint, etc)
Dental prostheses (bridge, crown, etc)
Surgical implants (bone, joint, etc)
Dental prostheses (bridge, crown, etc)
Aerospace (turbine, nozzle, engine, etc)
Nuclear & chemical (valve, drive devices)
Automotive (turbine, fixed part, rocker arm)
Medical devices & work of art
Automotive (turbine, fixed part, rocker arm)
Medical devices & work of art
Ti6Al4VTi6Al4V
≤
0.20
0.30≤ ≤ ≤≤
≤
≤
≤
≤
≤ ≤ ≤ ≤
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Bal.
Specialized in AM
Metal Materials
Material Technology Innovations Co., Ltd.
Tel : +86-(0)20-31040619
Fax : +86-(0)20-31137832
Email: [email protected]
Address:
Room 501, Building 3, TUS Park, 63 Chuangqi Road,
Shilou Town, Panyu District, Guangzhou, China
Postal Code: 511447
About MTIMaterial Technology Innovations Co., Ltd. ( MTI ) was esta-
blished in Guangzhou, China in 2014 and began as an
energetic start-up.
Since its foundation, the company has been devoted to Additive Manufacturing ( AM ), employing
engineers in a wide variety fields, from materials, chemistry, mechanical and powder metallurgy s-
cience. MTI’s cutting edge 1,200 sqm production facility is equipped with gas atomization systems
for production of spherical metal powders. At the same time, MTI’s R&D lab utilizes state-of-the-
art equipments to study the properties of AM metal materials, as well as their performances on AM
machines.
MTI’s major products include: Cobalt Based Alloys, Nickel Based Alloys, Stainless Steel, Tool Steel
and other special materials powders. Titanium & Titanium Based Alloys are being developed and
are expected to be launched within 2017. In addition, MTI is always willing to develop customized
powders with partners.
In future, with the aim of supplying extensive solutions for AM metal materials, MTI is scheduled
to expand the activities with novel technologies for materials production.
@MTI_ltd
@MTI