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Additive manufacturing at Jcw Drafting represents a cutting-edge approach to design and production, allowing for the creation of complex geometries and customized solutions tailored to your specific needs. Need your 3D printer fixed? We also repair and conduct maintenance on 3D Printers!
3D prints fabricated with materials that don't require advanced thermal controls
Sourced in Australia
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3D prints fabricated with materials that require advanced thermal controls
This PLA conducts electricy
This PLA dissipates electricity
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3D prints fabricated with materials that require advanced thermal controls and advanced post processing
Simply put, Vapor treated ASA for water tightness and Strength
Nylon 6 and 12 mixture with added carbon fibers at 15% of composite density
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3D prints fabricated with materials that require advanced thermal controls, advanced post processing and Sintering. Sizes ranging from 1cm³ up to 930.25cm³, (conditions apply)
Sintered Stainless Steel 316L, de-bound in solvent and sintered with Nitrogen into 100% Steel parts. Printed parts have up to 561 MPa tensile strength, 251 MPa yield strength, up to 53% elongation at break.
Stainless Steel 17-04PH, de-bound in Solvent and sintered with Nitrogen into 100% steel parts. Printed parts have a Tensile strength of up to 1004 MPa, a yield strength of 764 MPa, and an elongation at break of 4%
H13 Tool steel, de-bound in solvent and sintered with Argon into 100% steel parts. When heat treated, H13 can achieve up to 45 HRC with an Ultimate Tensile Strength of 1680 MPa.
M300 tool steel, de-bound in solvent and sintered with Argon into 100% steel parts. When heat treated, M300 can achieve up to 50 HRC with an Ultimate Tensile Strength of up to 2080 MPa.
Inconel 718, de-bound and sintered with Argon into 100% steel parts. Temperature dependent performance between UTS 765MPa and 558MPa. Exceptional resistance to a heat of 700°c
Sintering done with pure Nitrogen. pre-sintered Density: 4.5-4.7g/cm³
Potential thermal conductivity at over 34.2 W/m K
Sintering done in Argon, Density: 8.3-8.7g/cm³. Applications for locks and gears due to low friction properties.
Sintering done in Nitrogen, Density: 4.29-4.5g/cm³
Tensile Strength <800 MPa, Tensile Modulus: 96- 120 GPa
Sintering done in Nitrogen to increase hardness and tensile strength.
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Sintering done in Nitrogen.
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This 3D Printed Tungsten can be used as a direct replacement for lead based radiation shielding with no sintering required. Sintering done in a Nitrogen and hydrogen mix to achieve high wear resistant parts by utilising Tungsten Nitride Formations.
This material is ferromagnetic, perfect for magnetic project applications. Sintered with Nitrogen to introduce higher nitride content in finished parts.
This includes clays and ceramics for special use cases.
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Simulates the texture of the moon. Used in brake disks, complex tiling and research. Sintering done with Nitrogen results in high strength Basalt ceramics.
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FFF printed, Reaction Sintering with liquid silicone infiltration results in a shrinkage rate of <3%. Sintered with Nitrogen gas. Reaction sintering also results in higher densities in finished parts
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All quotations are subject to Terms and Conditions. All prices are in AUD and are subject to change. Project quotation values take into account a minimum of 2 reprints including manufacturing overheads. Some materials are not stocked all year round and specialty items are made to order. Please contact Jcw Drafting at query@jcwdrafting.com.au for further details
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