Industries & Partners
We help companies improve their return on invested capital
The engineering and economic benefits Uniformity Labs provides its clients cut across all industries. Our technology, represented by our materials and optimized process parameter, offers greater design flexibility while improving manufacturing efficiencies. Our clients who manufacture their AM parts internally see a quicker positive ROIC on their AM-related investments, while clients who work with our partnered contract manufacturers and service bureaus can realize a combination of shorter lead times and improved economics. In addition, our materials support greater sustainability, and the complement of our optimized process parameters supports the reduction in carbon footprint across all industries.

Given the rigorous qualification and certifications for critical components in Aerospace & Defense, additive manufacturing has been more limited to noncritical sub-assemblies of manned aircraft or ground systems. Our highly-dense engineered powders facilitate the production of stronger, lighter, optimized components unlocking the ability to produce a broader range of parts at scale for aerospace and defense applications, given the greater consistency of component properties and economics.

Additive manufacturing for medical devices and implants is a growing industry and is one of the early adopters of these technologies. While a highly regulated industry, given the critical nature of its applications, its advantages allow for the creation of structures that can vary in complexity, customization, weight, and strength. Our powders deliver consistent superior mechanical properties with greater manufacturing productivity. These unique benefits support continued innovation and broader adoption across the medical industry.

In an industry that demands dynamic innovation and technological advancements, additive manufacturing is a tool that helps both the conventional and renewable energy markets. We recently experienced global supply chain issues for OE and spare components. Additive manufacturing offers economic efficiency enabling a decentralized supply chain to reduce the tremendous downtime costs associated with energy production and distribution. Our powders and optimized process parameters improve the speed and efficiency of OE and spare component production, supporting production closer to the demand point, saving significant time and money when analyzing the total cost of the components and system downtimes.

While a broad market, Industrial clients have adopted additive manufacturing at a slower pace than other industries. This has typically been impacted by lower operating margins and more specific alloys not commonly addressed by AM. However, additive manufacturing for industrial applications has among the most significant growth opportunities, given there are fewer regulations to manage and significant leverage that can be achieved with the incorporation of Uniformity’s materials and optimized parameters. We can provide manufacturers with greater machine throughput without compromising material properties, which can support the reduction or elimination of costly post-processing that is usually employed when printing at higher rates. This improves the cost per part, reduces the manufacturing carbon footprint, and enables the production of more complex designs with alloys suitable for these applications, which can enhance performance.

- Transportation
- Aerospace & Defense
- Medical
- Energy
- Industrial
The engineering and economic benefits Uniformity Labs provides its clients cut across all industries. Our technology, represented by our materials and optimized process parameter, offers greater design flexibility while improving manufacturing efficiencies. Our clients who manufacture their AM parts internally see a quicker positive ROIC on their AM-related investments, while clients who work with our partnered contract manufacturers and service bureaus can realize a combination of shorter lead times and improved economics. In addition, our materials support greater sustainability, and the complement of our optimized process parameters supports the reduction in carbon footprint across all industries.

Given the rigorous qualification and certifications for critical components in Aerospace & Defense, additive manufacturing has been more limited to noncritical sub-assemblies of manned aircraft or ground systems. Our highly-dense engineered powders facilitate the production of stronger, lighter, optimized components unlocking the ability to produce a broader range of parts at scale for aerospace and defense applications, given the greater consistency of component properties and economics.

Additive manufacturing for medical devices and implants is a growing industry and is one of the early adopters of these technologies. While a highly regulated industry, given the critical nature of its applications, its advantages allow for the creation of structures that can vary in complexity, customization, weight, and strength. Our powders deliver consistent superior mechanical properties with greater manufacturing productivity. These unique benefits support continued innovation and broader adoption across the medical industry.

In an industry that demands dynamic innovation and technological advancements, additive manufacturing is a tool that helps both the conventional and renewable energy markets. We recently experienced global supply chain issues for OE and spare components. Additive manufacturing offers economic efficiency enabling a decentralized supply chain to reduce the tremendous downtime costs associated with energy production and distribution. Our powders and optimized process parameters improve the speed and efficiency of OE and spare component production, supporting production closer to the demand point, saving significant time and money when analyzing the total cost of the components and system downtimes.

While a broad market, Industrial clients have adopted additive manufacturing at a slower pace than other industries. This has typically been impacted by lower operating margins and more specific alloys not commonly addressed by AM. However, additive manufacturing for industrial applications has among the most significant growth opportunities, given there are fewer regulations to manage and significant leverage that can be achieved with the incorporation of Uniformity’s materials and optimized parameters. We can provide manufacturers with greater machine throughput without compromising material properties, which can support the reduction or elimination of costly post-processing that is usually employed when printing at higher rates. This improves the cost per part, reduces the manufacturing carbon footprint, and enables the production of more complex designs with alloys suitable for these applications, which can enhance performance.

- Transportation
- Aerospace & Defense
- Medical
- Energy
- Industrial
The engineering and economic benefits Uniformity Labs provides its clients cut across all industries. Our technology, represented by our materials and optimized process parameter, offers greater design flexibility while improving manufacturing efficiencies. Our clients who manufacture their AM parts internally see a quicker positive ROIC on their AM-related investments, while clients who work with our partnered contract manufacturers and service bureaus can realize a combination of shorter lead times and improved economics. In addition, our materials support greater sustainability, and the complement of our optimized process parameters supports the reduction in carbon footprint across all industries.

Given the rigorous qualification and certifications for critical components in Aerospace & Defense, additive manufacturing has been more limited to noncritical sub-assemblies of manned aircraft or ground systems. Our highly-dense engineered powders facilitate the production of stronger, lighter, optimized components unlocking the ability to produce a broader range of parts at scale for aerospace and defense applications, given the greater consistency of component properties and economics.

Additive manufacturing for medical devices and implants is a growing industry and is one of the early adopters of these technologies. While a highly regulated industry, given the critical nature of its applications, its advantages allow for the creation of structures that can vary in complexity, customization, weight, and strength. Our powders deliver consistent superior mechanical properties with greater manufacturing productivity. These unique benefits support continued innovation and broader adoption across the medical industry.

In an industry that demands dynamic innovation and technological advancements, additive manufacturing is a tool that helps both the conventional and renewable energy markets. We recently experienced global supply chain issues for OE and spare components. Additive manufacturing offers economic efficiency enabling a decentralized supply chain to reduce the tremendous downtime costs associated with energy production and distribution. Our powders and optimized process parameters improve the speed and efficiency of OE and spare component production, supporting production closer to the demand point, saving significant time and money when analyzing the total cost of the components and system downtimes.

While a broad market, Industrial clients have adopted additive manufacturing at a slower pace than other industries. This has typically been impacted by lower operating margins and more specific alloys not commonly addressed by AM. However, additive manufacturing for industrial applications has among the most significant growth opportunities, given there are fewer regulations to manage and significant leverage that can be achieved with the incorporation of Uniformity’s materials and optimized parameters. We can provide manufacturers with greater machine throughput without compromising material properties, which can support the reduction or elimination of costly post-processing that is usually employed when printing at higher rates. This improves the cost per part, reduces the manufacturing carbon footprint, and enables the production of more complex designs with alloys suitable for these applications, which can enhance performance.

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