Materials &
Mater
ials &
Technology
Techno
logy
Pushing the Boundaries of Advanced Materials
We specialize in developing and engineering high-performance materials tailored to the most demanding applications. Our expertise in metals, composites, polymers, and hybrid materials ensures that our components meet and exceed industry standards for strength, durability, and precision.
Mater
ials &
Techno
logy
Pushing the Boundaries of Advanced Materials
We specialize in developing and engineering high-performance materials tailored to the most demanding applications. Our expertise in metals, composites, polymers, and hybrid materials ensures that our components meet and exceed industry standards for strength, durability, and precision.
Our Material
Expertise
Our Material
Expertise
Our Material
Expertise
Advanced
Metals
We work with high-performance metals engineered for extreme conditions:
Titanium
Titanium is a highly durable metal known for its exceptional strength-to-weight ratio, corrosion resistance, and biocompatibility. It maintains structural integrity even in extreme temperatures and is widely used in critical applications where performance and reliability are essential.
Applications:
Aerospace components (e.g., turbine blades, airframes)
Medical implants and prosthetics
Automotive parts (e.g., exhaust systems, performance components)
Marine equipment (e.g., hulls, propellers)
Industrial equipment (e.g., valves, heat exchangers)
Its resistance to oxidation and high-stress environments ensures long-term durability across a wide range of industries, reducing maintenance needs and improving efficiency.
Standards & Certifications:
ASTM B348 (Standard Specification for Titanium and Titanium Alloy Bars and Billets)
ISO 13485 (Quality management systems – Medical devices)
AMS 4928 (Aerospace Material Specification)
Titanium
Titanium is a highly durable metal known for its exceptional strength-to-weight ratio, corrosion resistance, and biocompatibility. It maintains structural integrity even in extreme temperatures and is widely used in critical applications where performance and reliability are essential.
Applications:
Aerospace components (e.g., turbine blades, airframes)
Medical implants and prosthetics
Automotive parts (e.g., exhaust systems, performance components)
Marine equipment (e.g., hulls, propellers)
Industrial equipment (e.g., valves, heat exchangers)
Its resistance to oxidation and high-stress environments ensures long-term durability across a wide range of industries, reducing maintenance needs and improving efficiency.
Standards & Certifications:
ASTM B348 (Standard Specification for Titanium and Titanium Alloy Bars and Billets)
ISO 13485 (Quality management systems – Medical devices)
AMS 4928 (Aerospace Material Specification)
Titanium
Titanium is a highly durable metal known for its exceptional strength-to-weight ratio, corrosion resistance, and biocompatibility. It maintains structural integrity even in extreme temperatures and is widely used in critical applications where performance and reliability are essential.
Applications:
Aerospace components (e.g., turbine blades, airframes)
Medical implants and prosthetics
Automotive parts (e.g., exhaust systems, performance components)
Marine equipment (e.g., hulls, propellers)
Industrial equipment (e.g., valves, heat exchangers)
Its resistance to oxidation and high-stress environments ensures long-term durability across a wide range of industries, reducing maintenance needs and improving efficiency.
Standards & Certifications:
ASTM B348 (Standard Specification for Titanium and Titanium Alloy Bars and Billets)
ISO 13485 (Quality management systems – Medical devices)
AMS 4928 (Aerospace Material Specification)
Inconel
Inconel is a high-performance nickel-based superalloy designed for extreme environments. It offers exceptional resistance to heat, oxidation, and corrosion, making it ideal for applications exposed to high temperatures and mechanical stress.
Applications:
Jet engine components (e.g., turbine blades, combustion chambers)
Nuclear reactors and power plants
Automotive turbochargers and exhaust systems
Marine and offshore drilling equipment
High-temperature fasteners and seals
Due to its outstanding mechanical properties at elevated temperatures, Inconel is commonly used in industries that demand structural integrity under extreme conditions.
Standards & Certifications:
ASTM B166 (Nickel-Chromium-Iron Alloys)
AMS 5662/5663 (Aerospace Grade Inconel)
ISO 15156 (Materials for use in hydrogen sulfide-containing environments)
Inconel
Inconel is a high-performance nickel-based superalloy designed for extreme environments. It offers exceptional resistance to heat, oxidation, and corrosion, making it ideal for applications exposed to high temperatures and mechanical stress.
Applications:
Jet engine components (e.g., turbine blades, combustion chambers)
Nuclear reactors and power plants
Automotive turbochargers and exhaust systems
Marine and offshore drilling equipment
High-temperature fasteners and seals
Due to its outstanding mechanical properties at elevated temperatures, Inconel is commonly used in industries that demand structural integrity under extreme conditions.
Standards & Certifications:
ASTM B166 (Nickel-Chromium-Iron Alloys)
AMS 5662/5663 (Aerospace Grade Inconel)
ISO 15156 (Materials for use in hydrogen sulfide-containing environments)
Inconel
Inconel is a high-performance nickel-based superalloy designed for extreme environments. It offers exceptional resistance to heat, oxidation, and corrosion, making it ideal for applications exposed to high temperatures and mechanical stress.
Applications:
Jet engine components (e.g., turbine blades, combustion chambers)
Nuclear reactors and power plants
Automotive turbochargers and exhaust systems
Marine and offshore drilling equipment
High-temperature fasteners and seals
Due to its outstanding mechanical properties at elevated temperatures, Inconel is commonly used in industries that demand structural integrity under extreme conditions.
Standards & Certifications:
ASTM B166 (Nickel-Chromium-Iron Alloys)
AMS 5662/5663 (Aerospace Grade Inconel)
ISO 15156 (Materials for use in hydrogen sulfide-containing environments)
Tungsten
Tungsten is one of the densest and most heat-resistant metals, known for its high melting point, exceptional hardness, and resistance to wear and deformation. It is essential for applications requiring extreme strength and durability.
Applications:
Aerospace shielding and high-performance coatings
Medical radiation shielding and X-ray equipment
Defense-grade armor-piercing projectiles
Industrial tooling and cutting applications
Electronics (e.g., filaments, semiconductors)
Tungsten's unmatched hardness and resistance to mechanical stress make it indispensable in high-precision and high-performance applications.
Standards & Certifications:
ASTM B777 (Tungsten Heavy Alloy)
ISO 9001 (Quality Management)
Tungsten
Tungsten is one of the densest and most heat-resistant metals, known for its high melting point, exceptional hardness, and resistance to wear and deformation. It is essential for applications requiring extreme strength and durability.
Applications:
Aerospace shielding and high-performance coatings
Medical radiation shielding and X-ray equipment
Defense-grade armor-piercing projectiles
Industrial tooling and cutting applications
Electronics (e.g., filaments, semiconductors)
Tungsten's unmatched hardness and resistance to mechanical stress make it indispensable in high-precision and high-performance applications.
Standards & Certifications:
ASTM B777 (Tungsten Heavy Alloy)
ISO 9001 (Quality Management)
Tungsten
Tungsten is one of the densest and most heat-resistant metals, known for its high melting point, exceptional hardness, and resistance to wear and deformation. It is essential for applications requiring extreme strength and durability.
Applications:
Aerospace shielding and high-performance coatings
Medical radiation shielding and X-ray equipment
Defense-grade armor-piercing projectiles
Industrial tooling and cutting applications
Electronics (e.g., filaments, semiconductors)
Tungsten's unmatched hardness and resistance to mechanical stress make it indispensable in high-precision and high-performance applications.
Standards & Certifications:
ASTM B777 (Tungsten Heavy Alloy)
ISO 9001 (Quality Management)
Composites &
Technical
Polymers
Innovative materials that provide strength, flexibility, and chemical resistance:
Carbon Fiber
Carbon Fiber is an ultra-lightweight, high-strength composite material that delivers outstanding stiffness, chemical resistance, and thermal stability. It is a preferred choice for industries where reducing weight without compromising performance is crucial.
Applications:
Aerospace fuselages, wings, and interior components
Automotive body panels and chassis reinforcements
Sports equipment (e.g., bicycles, golf clubs)
Medical imaging and prosthetics
Industrial robotics and automation systems
This material's superior mechanical properties and adaptability make it a key player in modern engineering solutions.
Standards & Certifications:
ASTM D3039 (Tensile Properties of Polymer Matrix Composite Materials)
ISO 14001 (Environmental Management)
Carbon Fiber
Carbon Fiber is an ultra-lightweight, high-strength composite material that delivers outstanding stiffness, chemical resistance, and thermal stability. It is a preferred choice for industries where reducing weight without compromising performance is crucial.
Applications:
Aerospace fuselages, wings, and interior components
Automotive body panels and chassis reinforcements
Sports equipment (e.g., bicycles, golf clubs)
Medical imaging and prosthetics
Industrial robotics and automation systems
This material's superior mechanical properties and adaptability make it a key player in modern engineering solutions.
Standards & Certifications:
ASTM D3039 (Tensile Properties of Polymer Matrix Composite Materials)
ISO 14001 (Environmental Management)
Carbon Fiber
Carbon Fiber is an ultra-lightweight, high-strength composite material that delivers outstanding stiffness, chemical resistance, and thermal stability. It is a preferred choice for industries where reducing weight without compromising performance is crucial.
Applications:
Aerospace fuselages, wings, and interior components
Automotive body panels and chassis reinforcements
Sports equipment (e.g., bicycles, golf clubs)
Medical imaging and prosthetics
Industrial robotics and automation systems
This material's superior mechanical properties and adaptability make it a key player in modern engineering solutions.
Standards & Certifications:
ASTM D3039 (Tensile Properties of Polymer Matrix Composite Materials)
ISO 14001 (Environmental Management)
PEEK
PEEK (Polyether Ether Ketone) is an engineering-grade thermoplastic with outstanding mechanical, thermal, and chemical resistance properties. It serves as a lightweight alternative to metals while maintaining high durability.
Applications:
Aerospace structural parts and fasteners
Medical implants (e.g., spinal cages, dental prosthetics)
High-performance electrical insulators
Automotive engine components
Oil & Gas industry applications
PEEK is widely used for its biocompatibility, radiation resistance, and extreme durability, making it a premium material in demanding engineering fields.
Standards & Certifications:
ISO 23936 (Thermoplastics for use in Oil & Gas applications)
FDA Approval for medical-grade applications
PEEK
PEEK (Polyether Ether Ketone) is an engineering-grade thermoplastic with outstanding mechanical, thermal, and chemical resistance properties. It serves as a lightweight alternative to metals while maintaining high durability.
Applications:
Aerospace structural parts and fasteners
Medical implants (e.g., spinal cages, dental prosthetics)
High-performance electrical insulators
Automotive engine components
Oil & Gas industry applications
PEEK is widely used for its biocompatibility, radiation resistance, and extreme durability, making it a premium material in demanding engineering fields.
Standards & Certifications:
ISO 23936 (Thermoplastics for use in Oil & Gas applications)
FDA Approval for medical-grade applications
PEEK
PEEK (Polyether Ether Ketone) is an engineering-grade thermoplastic with outstanding mechanical, thermal, and chemical resistance properties. It serves as a lightweight alternative to metals while maintaining high durability.
Applications:
Aerospace structural parts and fasteners
Medical implants (e.g., spinal cages, dental prosthetics)
High-performance electrical insulators
Automotive engine components
Oil & Gas industry applications
PEEK is widely used for its biocompatibility, radiation resistance, and extreme durability, making it a premium material in demanding engineering fields.
Standards & Certifications:
ISO 23936 (Thermoplastics for use in Oil & Gas applications)
FDA Approval for medical-grade applications
PTFE
PTFE (Polytetrafluoroethylene) is a high-performance fluoropolymer known for its exceptional chemical resistance, low friction, and high-temperature stability. It is widely used in demanding environments where non-stick, non-reactive, and heat-resistant properties are required.
Applications:
Aerospace seals, gaskets, and tubing
Medical tubing and surgical instruments
Electronics insulation and circuit boards
Automotive fuel lines and gaskets
Industrial chemical processing equipment
PTFE's superior non-stick and dielectric properties make it an essential material in precision industries requiring durability and chemical resistance.
Standards & Certifications:
ASTM D1710 (Standard Specification for PTFE Materials)
FDA Approval for medical and food-grade applications
ISO 10993 (Biocompatibility testing for medical devices)
PTFE
PTFE (Polytetrafluoroethylene) is a high-performance fluoropolymer known for its exceptional chemical resistance, low friction, and high-temperature stability. It is widely used in demanding environments where non-stick, non-reactive, and heat-resistant properties are required.
Applications:
Aerospace seals, gaskets, and tubing
Medical tubing and surgical instruments
Electronics insulation and circuit boards
Automotive fuel lines and gaskets
Industrial chemical processing equipment
PTFE's superior non-stick and dielectric properties make it an essential material in precision industries requiring durability and chemical resistance.
Standards & Certifications:
ASTM D1710 (Standard Specification for PTFE Materials)
FDA Approval for medical and food-grade applications
ISO 10993 (Biocompatibility testing for medical devices)
PTFE
PTFE (Polytetrafluoroethylene) is a high-performance fluoropolymer known for its exceptional chemical resistance, low friction, and high-temperature stability. It is widely used in demanding environments where non-stick, non-reactive, and heat-resistant properties are required.
Applications:
Aerospace seals, gaskets, and tubing
Medical tubing and surgical instruments
Electronics insulation and circuit boards
Automotive fuel lines and gaskets
Industrial chemical processing equipment
PTFE's superior non-stick and dielectric properties make it an essential material in precision industries requiring durability and chemical resistance.
Standards & Certifications:
ASTM D1710 (Standard Specification for PTFE Materials)
FDA Approval for medical and food-grade applications
ISO 10993 (Biocompatibility testing for medical devices)
UHMWPE
UHMWPE (Ultra-High Molecular Weight Polyethylene) is an extremely durable, impact-resistant thermoplastic with high wear resistance, low friction, and excellent chemical stability. It is commonly used in applications requiring abrasion resistance and superior strength.
Applications:
Medical implants (e.g., orthopedic joint replacements)
High-performance ballistic armor
Industrial conveyor and wear-resistant components
Marine applications (e.g., dock fenders, ropes)
Food processing equipment
With its self-lubricating and highly durable properties, UHMWPE significantly enhances product lifespan and efficiency in harsh environments.
Standards & Certifications:
ISO 5834 (Implantable UHMWPE)
ASTM D4020 (UHMWPE for Industrial Applications)
UHMWPE
UHMWPE (Ultra-High Molecular Weight Polyethylene) is an extremely durable, impact-resistant thermoplastic with high wear resistance, low friction, and excellent chemical stability. It is commonly used in applications requiring abrasion resistance and superior strength.
Applications:
Medical implants (e.g., orthopedic joint replacements)
High-performance ballistic armor
Industrial conveyor and wear-resistant components
Marine applications (e.g., dock fenders, ropes)
Food processing equipment
With its self-lubricating and highly durable properties, UHMWPE significantly enhances product lifespan and efficiency in harsh environments.
Standards & Certifications:
ISO 5834 (Implantable UHMWPE)
ASTM D4020 (UHMWPE for Industrial Applications)
UHMWPE
UHMWPE (Ultra-High Molecular Weight Polyethylene) is an extremely durable, impact-resistant thermoplastic with high wear resistance, low friction, and excellent chemical stability. It is commonly used in applications requiring abrasion resistance and superior strength.
Applications:
Medical implants (e.g., orthopedic joint replacements)
High-performance ballistic armor
Industrial conveyor and wear-resistant components
Marine applications (e.g., dock fenders, ropes)
Food processing equipment
With its self-lubricating and highly durable properties, UHMWPE significantly enhances product lifespan and efficiency in harsh environments.
Standards & Certifications:
ISO 5834 (Implantable UHMWPE)
ASTM D4020 (UHMWPE for Industrial Applications)
Hybrid & Metalized
Materials
We work with high-performance metals engineered for extreme conditions:
Ceramic-Metal Composites
Ceramic-metal composites, or cermets, combine the strength and toughness of metals with the heat and wear resistance of ceramics, creating high-performance materials for extreme environments.
Applications:
Aerospace turbine blades and heat shields
Cutting tools and industrial wear-resistant components
High-temperature electrical insulation
Armor and defense applications
Automotive braking systems
These composites offer superior thermal and mechanical properties, making them ideal for critical applications requiring longevity and durability.
Standards & Certifications:
ASTM C1674 (Ceramic-Metal Composite Testing)
ISO 6474 (Ceramic Materials for Medical Applications)
Ceramic-Metal Composites
Ceramic-metal composites, or cermets, combine the strength and toughness of metals with the heat and wear resistance of ceramics, creating high-performance materials for extreme environments.
Applications:
Aerospace turbine blades and heat shields
Cutting tools and industrial wear-resistant components
High-temperature electrical insulation
Armor and defense applications
Automotive braking systems
These composites offer superior thermal and mechanical properties, making them ideal for critical applications requiring longevity and durability.
Standards & Certifications:
ASTM C1674 (Ceramic-Metal Composite Testing)
ISO 6474 (Ceramic Materials for Medical Applications)
Ceramic-Metal Composites
Ceramic-metal composites, or cermets, combine the strength and toughness of metals with the heat and wear resistance of ceramics, creating high-performance materials for extreme environments.
Applications:
Aerospace turbine blades and heat shields
Cutting tools and industrial wear-resistant components
High-temperature electrical insulation
Armor and defense applications
Automotive braking systems
These composites offer superior thermal and mechanical properties, making them ideal for critical applications requiring longevity and durability.
Standards & Certifications:
ASTM C1674 (Ceramic-Metal Composite Testing)
ISO 6474 (Ceramic Materials for Medical Applications)
Reinforced Glass Structures
Reinforced glass structures are engineered for enhanced strength, impact resistance, and thermal stability. These advanced materials improve safety and longevity in various industries.
Applications:
Aerospace cockpit canopies and windshields
Automotive safety glass and lightweight panels
High-security bulletproof and blast-resistant glass
Architectural and industrial glazing
Electronics (e.g., strengthened display panels)
By integrating advanced reinforcement techniques, these glass structures offer unparalleled clarity, strength, and resistance to extreme conditions.
Standards & Certifications:
ASTM C1048 (Heat-Strengthened Glass)
ISO 12543 (Laminated Glass Standards)
Reinforced Glass Structures
Reinforced glass structures are engineered for enhanced strength, impact resistance, and thermal stability. These advanced materials improve safety and longevity in various industries.
Applications:
Aerospace cockpit canopies and windshields
Automotive safety glass and lightweight panels
High-security bulletproof and blast-resistant glass
Architectural and industrial glazing
Electronics (e.g., strengthened display panels)
By integrating advanced reinforcement techniques, these glass structures offer unparalleled clarity, strength, and resistance to extreme conditions.
Standards & Certifications:
ASTM C1048 (Heat-Strengthened Glass)
ISO 12543 (Laminated Glass Standards)
Reinforced Glass Structures
Reinforced glass structures are engineered for enhanced strength, impact resistance, and thermal stability. These advanced materials improve safety and longevity in various industries.
Applications:
Aerospace cockpit canopies and windshields
Automotive safety glass and lightweight panels
High-security bulletproof and blast-resistant glass
Architectural and industrial glazing
Electronics (e.g., strengthened display panels)
By integrating advanced reinforcement techniques, these glass structures offer unparalleled clarity, strength, and resistance to extreme conditions.
Standards & Certifications:
ASTM C1048 (Heat-Strengthened Glass)
ISO 12543 (Laminated Glass Standards)
Metalized Composites
Metalized composites combine lightweight polymers or ceramics with metal coatings or layers, offering improved electrical conductivity, thermal resistance, and mechanical strength.
Applications:
Aerospace shielding and lightweight structural components
High-performance electronic packaging and circuit boards
Medical implants with biocompatible metal coatings
Automotive EMI shielding components
Industrial thermal and corrosion-resistant coatings
By leveraging advanced metal deposition techniques, these composites enhance product performance across high-tech industries.
Standards & Certifications:
ISO 20502 (Metalized Ceramic Coatings)
ASTM B488 (Electrodeposited Metal Coatings)
Metalized Composites
Metalized composites combine lightweight polymers or ceramics with metal coatings or layers, offering improved electrical conductivity, thermal resistance, and mechanical strength.
Applications:
Aerospace shielding and lightweight structural components
High-performance electronic packaging and circuit boards
Medical implants with biocompatible metal coatings
Automotive EMI shielding components
Industrial thermal and corrosion-resistant coatings
By leveraging advanced metal deposition techniques, these composites enhance product performance across high-tech industries.
Standards & Certifications:
ISO 20502 (Metalized Ceramic Coatings)
ASTM B488 (Electrodeposited Metal Coatings)
Metalized Composites
Metalized composites combine lightweight polymers or ceramics with metal coatings or layers, offering improved electrical conductivity, thermal resistance, and mechanical strength.
Applications:
Aerospace shielding and lightweight structural components
High-performance electronic packaging and circuit boards
Medical implants with biocompatible metal coatings
Automotive EMI shielding components
Industrial thermal and corrosion-resistant coatings
By leveraging advanced metal deposition techniques, these composites enhance product performance across high-tech industries.
Standards & Certifications:
ISO 20502 (Metalized Ceramic Coatings)
ASTM B488 (Electrodeposited Metal Coatings)
Our Material
Expertise
Our Material
Expertise
Our Material
Expertise
Custom Material Formulation
We engineer materials to meet specific mechanical, thermal, and chemical requirements, optimizing performance for each application.
Specialized material blends and coatings
Custom Material Formulation
We engineer materials to meet specific mechanical, thermal, and chemical requirements, optimizing performance for each application.
Specialized material blends and coatings
Custom Material Formulation
We engineer materials to meet specific mechanical, thermal, and chemical requirements, optimizing performance for each application.
Specialized material blends and coatings
Precision Machining & Forming
Using advanced CNC machining, extrusion, and pressing, we create near-net-shape components with industry-leading tolerances.
state-of-the-art CNC machining and advanced forming techniques
Precision Machining & Forming
Using advanced CNC machining, extrusion, and pressing, we create near-net-shape components with industry-leading tolerances.
state-of-the-art CNC machining and advanced forming techniques
Precision Machining & Forming
Using advanced CNC machining, extrusion, and pressing, we create near-net-shape components with industry-leading tolerances.
state-of-the-art CNC machining and advanced forming techniques
Additive Manufacturing & Hybrid Processing
We integrate 3D printing with traditional manufacturing for enhanced design flexibility and material efficiency.
This technology reduces material waste and shortens production timelines
Additive Manufacturing & Hybrid Processing
We integrate 3D printing with traditional manufacturing for enhanced design flexibility and material efficiency.
This technology reduces material waste and shortens production timelines
Additive Manufacturing & Hybrid Processing
We integrate 3D printing with traditional manufacturing for enhanced design flexibility and material efficiency.
This technology reduces material waste and shortens production timelines
Surface Treatment & Coating
From plasma treatments to specialized coatings, we enhance material properties for durability, conductivity, and wear resistance.
materials last longer, perform better, and meet the most demanding industry requirements.
Surface Treatment & Coating
From plasma treatments to specialized coatings, we enhance material properties for durability, conductivity, and wear resistance.
materials last longer, perform better, and meet the most demanding industry requirements.
Surface Treatment & Coating
From plasma treatments to specialized coatings, we enhance material properties for durability, conductivity, and wear resistance.
materials last longer, perform better, and meet the most demanding industry requirements.
High-Temperature Processing
Omnis specializes in precision-controlled heat treatments, sintering, and thermal processing to enhance material properties.
enhance mechanical strength and extend product lifespan.
High-Temperature Processing
Omnis specializes in precision-controlled heat treatments, sintering, and thermal processing to enhance material properties.
enhance mechanical strength and extend product lifespan.
High-Temperature Processing
Omnis specializes in precision-controlled heat treatments, sintering, and thermal processing to enhance material properties.
enhance mechanical strength and extend product lifespan.
Materials
Engineered for
Performance
Omnis partners with industry leaders to deliver custom-engineered solutions that set new benchmarks for innovation. Whether for aerospace, defense, medical, or industrial applications, our expertise in advanced materials drives the future of manufacturing.
Want to explore how Omnis’ materials can elevate your next project?
