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- Full lot COA — PSD, sphericity, flow rate, chemistry
- Qualified parameter sets for the major LPBF systems
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Metal Build Plates 3D Printing Materials, Dental, Engineering, HIPed, Manufacturing, Materials, Medical
EOS M400 HIPed Ti64 Build Plate | M400 HIPed Ti64 Build Platform
The M400 HIPed Ti64 Build Platform is a high-density titanium build plate manufactured via hot isostatic pressing (HIP) for EOS M400 systems. Engineered for aerospace, medical, and certified industrial LPBF production, this titanium HIPed build platform ensures zero contamination, superior fatigue resistance, and exceptional dimensional stability.
Need a HIPed titanium build platform for another printer model or custom dimensions? Request a custom quote — we manufacture precision HIPed titanium build plates for most industrial metal AM systems.
Lot # and price held 7 days after order.
NDA standard
Ships in 1–2 business days
Spec-match guarantee on every lot
Built for production teams
What your process engineer actually checks
Locked, traceable lot chemistry
Every lot ships with a COA documenting PSD, sphericity, flow rate, apparent density, and full chemistry — and a lot number you can trace. Aerospace and medical teams reorder 4+ times without re-qualifying.
Qualified parameters, not just powder
Validated parameter sets for EOS M 290, Renishaw 500Q, SLM 280, and our own AO Metal LPBF ship with the order. Load the profile and hit density on the first build — no parameter-development burn.
A materials engineer on the line
Questions on ferrite content, flowability, recyclate ratios, or HIP response? A materials engineer answers directly — not a contact-form bot. Most replies in under 4 hours, NDA standard.
About this product
The M400 HIPed Ti64 Build Platform is produced via powder metallurgy and hot isostatic pressing (HIP), ensuring 100% density and compliance with AMS 4994A. Designed specifically for titanium LPBF production on EOS M400 systems, this HIPed titanium build plate minimizes internal porosity, eliminates micro-voids, and provides a fine-grain microstructure for superior mechanical integrity.
With its large 360×400mm surface and full 76.2mm thermal mass, this titanium HIPed build platform delivers exceptional heat distribution during extended build cycles. The result is reduced warping, lower residual stress, and consistent first-layer adhesion across the entire build area.
For aerospace and medical manufacturers, the M400 HIPed Ti64 Build Platform is critical to maintaining material traceability and preventing iron contamination that can occur when printing titanium on steel plates.
Manufactured in California, USA, this platform is built for demanding, certified production environments.
Key Features & Benefits
- Large Format 360×400mm Build Area: Utilize the full capacity of your M400 system for larger titanium components or multiple parts in a single build, maximizing productivity and reducing cost per part.
- Hot Isostatically Pressed Ti-6Al-4V: HIP processing eliminates internal porosity and micro-voids, significantly enhancing fatigue resistance and extending service life under demanding production conditions.
- Full 76.2mm Thermal Mass: Provides exceptional thermal stability throughout extended build cycles, minimizing distortion and residual stress in large-scale titanium components.
- Critical for Material Certification: Essential for aerospace and medical applications where iron contamination must be avoided and full material traceability is required.
- Precision-Ground Surface: Machined to exacting flatness standards to ensure perfect first-layer adhesion and consistent performance across the entire large build area.
Country of Origin: USA, CA
APPLICATIONS
Ideal For:
- Aerospace: Large structural components, engine parts, and airframe structures
- Medical: Multiple implants per build or large surgical guides and instruments
- Industrial: Large-scale prototypes, automotive racing components, and marine applications
- Service Bureaus: Maximizing throughput and ROI on M400 systems
Hot isostatic pressing (HIP)
Hot isostatic pressing (HIP) is a materials fabrication process in which a starting powder or a remolded shape is simultaneously subjected to both high temperatures and high isostatic pressures, using a gas transfer medium.
This technique has developed from an invention conceived before the 1960s, used initially for the primary purpose of fabricating clad nuclear fuel elements and referred to as “gas pressure bonding”.
Today, it is employed for a broad range of metallic and nonmetallic materials. The three most common industrial applications are post densification of cemented carbides, sintering of specialty steels and the healing of super alloy and titanium castings.
| Brand | Additive Plus |
| Country of origin | USA |
| Platform | M400 |
| Material | Ti-6Al-4V Grade 5 (TC4) |
| Package | 1 plate, 10 plates, 5 plates |
| Dimensions | 14.173×15.748×2.9 in, 360×400×73.66 mm |
Don't see your spec?
We atomize our own. Custom variants on request.
Tighter PSD, modified chemistry, custom blend? Our ATO atomization lab runs custom batches in 3–4 weeks. Biocompatible, refractory, proprietary — all in-house, verified before ship.
Frequently bought together
Complete the workflow
What teams add to an order so the first build runs clean — handling, plates, and a sample to qualify before you commit volume.
Dental
EOS M280 EOS M290 Ti64 Build Plate - Titanium Metal Build Platform for LPBF
High-purity Ti-6Al-4V build plate engineered for EOS M280 and M290 systems. Designed for contamination-free titanium printing with stable thermal behavior and repeatable LPBF performance.
Need a build platform for a different printer model or custom dimensions?
Request a custom quote — we manufacture precision build plates for most metal AM systems.
Request a custom quote — we manufacture precision build plates for most metal AM systems.
From $1550
Get quote
6-8 weeks
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EOS M290 SS304 Build Plate | 50mm Stainless LPBF Platform
SS304 stainless steel build plate for EOS M280/M290 systems. 50mm optimized profile for faster thermal cycling and stable LPBF metal printing.
Need a build platform for a different printer model or custom dimensions?
Request a custom quote — we manufacture precision build plates for most metal AM systems.
Request a custom quote — we manufacture precision build plates for most metal AM systems.
From $580
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EOS M290 SS316 Build Plate | 50mm Corrosion-Resistant LPBF Platform
SS316 stainless steel build plate for EOS M280/M290 systems. 50mm optimized profile for corrosion-resistant and stable LPBF metal printing.
Need a build platform for a different printer model or custom dimensions?
Request a custom quote — we manufacture precision build plates for most metal AM systems.
Request a custom quote — we manufacture precision build plates for most metal AM systems.
From $720
Get quote
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EOS M400 SS304 Build Plate | M400 Steel Build Platform for Metal 3D Printing
The M400 Steel Build Platform is a heavy-duty SS304 stainless steel build plate engineered for EOS M400 systems. Designed for large-format LPBF production, it delivers superior thermal stability, structural rigidity, and repeatable industrial metal 3D printing performance.
Need a build platform for a different printer model or custom dimensions?
Request a custom quote — we manufacture precision build plates and building platforms for most industrial metal AM systems.
From $2050
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EOS M400 SS316 Build Plate | M400 SS316 Build Platform for Metal 3D Printing
The M400 SS316 Build Platform is a heavy-duty stainless steel build plate engineered for EOS M400 systems. Designed for large-format LPBF metal 3D printing, it delivers superior corrosion resistance, thermal stability, and repeatable performance in demanding industrial environments.
Need a build platform for a different printer model or custom dimensions?
Request a custom quote — we manufacture precision build plates and building platforms for most industrial metal AM systems.
From $2550
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EOS M400 Ti-6Al-4V Build Plate | M400 Ti64 Build Platform for Metal 3D Printing
The M400 Ti64 Build Platform is a large-format Ti-6Al-4V titanium build plate engineered for EOS M400 systems. Designed for aerospace, medical, and high-value industrial applications, this titanium platform provides unmatched material purity, thermal stability, and repeatable LPBF performance.
Need a titanium build platform for a different printer model or custom dimensions? Request a custom quote — we manufacture precision titanium build plates and additive manufacturing platforms for most metal AM systems.
From $4750
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Dental
SLM 280 Ti64 Build Plate | Titanium SLM 280 Build Platform
The SLM 280 Ti64 Build Platform is a precision-machined titanium build plate engineered for high-performance LPBF production. Manufactured from aerospace-grade Ti-6Al-4V (Grade 5), this titanium build plate for SLM 280 prevents cross-contamination, enhances thermal management, and ensures consistent first-layer adhesion for mission-critical aerospace and medical components.
Need a titanium build platform for another printer model or custom thickness?
Request a custom quote — we manufacture precision titanium and metal build plates for most industrial LPBF systems.
From $3100
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SLM 280 SS304 Build Plate | SLM 280 SS304 Build Platform 73.66 mm
The SLM 280 SS304 Build Platform is a precision-ground stainless steel build plate engineered for reliable LPBF production. Manufactured from high-grade 304 stainless steel and designed as a direct OEM-compatible solution, this SLM 280 metal build plate delivers excellent flatness, thermal stability, and repeatable first-layer performance for industrial additive manufacturing.
Need a custom steel build platform for another printer or alternative thickness? Request a custom quote — we manufacture precision stainless steel and specialty alloy build plates for most industrial LPBF systems.From $1400
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SLM 280 SS316 Build Plate | SLM 280 SS316 Build Platform 73.66 mm
The SLM 280 SS316 Build Platform is a corrosion-resistant stainless steel build plate engineered for demanding additive manufacturing environments. Manufactured from premium 316 stainless steel and precision-ground for superior flatness, this SLM 280 SS316 build plate delivers reliable first-layer adhesion, stable thermal performance, and consistent industrial-grade LPBF results.
Need a custom stainless steel build platform or alternative alloy for your LPBF system? Request a custom quote — we manufacture precision steel and specialty alloy build plates for most industrial metal 3D printers.
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EOS M280 HIPed Ti64 Build Plate | M280 HIPed Ti64 Build Platform for Metal 3D Printing
The M280 HIPed Ti64 Build Platform is a high-performance titanium build plate produced via HIP (hot isostatic pressing), engineered for EOS M280 systems. Designed for aerospace, medical, and high-value titanium 3D printing, this HIPed platform ensures material homogeneity, thermal stability, and exceptional first-layer precision for critical LPBF applications.
Other materials available upon request.
Need a HIPed titanium build platform for a different printer model or custom dimensions? Request a custom quote — we manufacture precision HIPed titanium build plates and additive manufacturing platforms for most metal AM systems.
Other materials available upon request.From $1450
Get quote
4-5 weeks
Dental
EOS M400 HIPed Ti64 Build Plate | M400 HIPed Ti64 Build Platform
The M400 HIPed Ti64 Build Platform is a high-density titanium build plate manufactured via hot isostatic pressing (HIP) for EOS M400 systems. Engineered for aerospace, medical, and certified industrial LPBF production, this titanium HIPed build platform ensures zero contamination, superior fatigue resistance, and exceptional dimensional stability.
Need a HIPed titanium build platform for another printer model or custom dimensions? Request a custom quote — we manufacture precision HIPed titanium build plates for most industrial metal AM systems.
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SLM 280 HIPed Ti64 Build Plate | SLM 280 HIPed Ti64 Build Platform
High quality build plates. Premium Durability. Maximum Thermal Stability.
Need a HIPed titanium build platform in custom dimensions or for another LPBF system?
Request a custom quote — we manufacture precision HIPed build plates up to 600×600 mm for most industrial metal 3D printers.
The SLM 280 HIPed Ti64 Build Platform is manufactured via powder metallurgy and hot isostatic pressing (HIP) to deliver a fully dense, fine-grain titanium structure compliant with AMS 4994A. Designed for critical LPBF production, this HIPed titanium build plate for SLM 280 ensures superior thermal stability, minimal warping, and exceptional precision for aerospace, medical, and industrial applications.
Need a HIPed titanium build platform in custom dimensions or for another LPBF system?
Request a custom quote — we manufacture precision HIPed build plates up to 600×600 mm for most industrial metal 3D printers.6-8 weeks
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From process engineers running EOS M400 HIPed Ti64 Build Plate | M400 HIPed Ti64 Build Platform
Unedited feedback from customers who reorder EOS M400 HIPed Ti64 Build Plate | M400 HIPed Ti64 Build Platform.
★★★★★
Same lot 4 times in a row. We stopped re-running parameter sweeps after the second order — density was identical to the first build.
MK
Marcus K.
Process Engineer · Aerospace OEM
★★★★★
Asked about ferrite content on a Friday. A materials engineer answered Monday morning with actual data, not a sales pitch. That's why we keep ordering.
PS
Priya S.
R&D Lead · Medical Devices
★★★★★
COA matches the bottle. PSD and flow are exactly what was on the sheet — we run it on a Renishaw 500Q and it hits density on the first try.
DR
Diego R.
Production Lead · Energy
Common questions
Don't see yours? Email [email protected] — NDA standard, typical reply within 4 hours.
How does the M400 HIPed Ti64 Build Platform improve fatigue resistance compared to a standard titanium build plate?
The HIP consolidation process eliminates internal porosity and micro-voids, giving the M400 HIPed Ti64 Build Platform superior fatigue resistance and structural integrity during high-cycle LPBF titanium production.
Why is a HIPed titanium build platform critical for certified aerospace manufacturing?
The M400 HIPed Ti64 Build Platform ensures material homogeneity, traceability compliance (AMS 4994A), and prevents iron contamination — essential for aerospace-certified components.
How does the 76.2mm thickness of the M400 HIPed Ti64 Build Platform affect thermal stability?
The full thermal mass stabilizes heat distribution, reduces thermal gradients, and minimizes residual stress in large-format titanium builds.
Can the M400 HIPed Ti64 Build Platform be manufactured from customer-supplied powders?
Yes. HIPed titanium build platforms can be produced using customer-provided powders, including over-spec or reclaimed material.
Is the M400 HIPed Ti64 Build Platform compatible with all EOS M400 titanium processes?
Yes. This titanium HIPed build plate is engineered specifically for EOS M400 LPBF systems and integrates directly without modification.
How does HIP processing improve the microstructure of the titanium build platform?
Hot isostatic pressing creates a fine-grain, fully dense structure that improves mechanical performance and reduces distortion during additive manufacturing.
Can custom sizes and thicknesses be produced for the M400 HIPed Ti64 Build Platform?
Yes. Large-format plates up to 600×600 mm and custom thickness configurations are available.
What industries benefit most from the M400 HIPed Ti64 Build Platform?
Aerospace, medical, automotive racing, marine, and high-value industrial titanium production environments.
Place your order, or talk to an engineer first
Order EOS M400 HIPed Ti64 Build Plate | M400 HIPed Ti64 Build Platform direct, or talk to materials engineer