01 Licensed to innovate

Thermoplastics

Thermoplastic composites are offering promising solutions to aviation challenges. They are providing weight savings for better fuel efficiency, faster production times, higher impact strength than thermosets, and can be welded, reducing or eliminating the need for fasteners. Additionally, they are easier to recycle at the end of their life cycle, making them indispensable for achieving economic and environmental goals in aviation.

01 Licensed to innovate

Thermosets

Thermoset composites are being recognized for their lightweight and high strength-to-weight ratio, making them perfect for aircraft parts. They are providing excellent thermal and electrical insulation, durability, and chemical resistance. Additionally, thermosets are being molded into complex shapes, enabling innovative designs.

01 Licensed to innovate

Bio-sourced resins

Bio-sourced resins are deriving some or all of their constituent monomers from biological sources, such as sugarcane. Their use is providing an alternative to phenolics (a class of resin) in aircraft. FACC’ researchers are exploring areas including furan and epoxy.

01 Licensed to innovate

Design Engineering

We’re operating with the strength of a large organization while staying agile enough to adapt to each customer’s unique needs.
When it comes to designing lightweight components and systems, you can think of it as being about three E’s: Environment, Efficiency, and Economy. We’re supporting our customers from day one – from the first concept to a series-ready product, whether for small or large-scale production.
We’re engineering with purpose: from requirement-driven construction and weight-optimized design to complex tooling. Our expertise in composites, metals, and assembly design, paired with cutting-edge tools like CATIA V5, 3DX, and NX, and seamless data interfaces, is enabling us to collaborate efficiently and bring aerospace innovations to market faster.

01 Licensed to innovate

Anlaysis engineering

We are providing comprehensive static and fatigue analyses for composite materials and metals, with a focus on complex lightweight structures. Continuously performing linear and nonlinear, static and dynamic simulations, we are aligning our results with test data to ensure accuracy. We are consistently evaluating strength, deformation, stability, risk, dynamics, fatigue, and damage tolerance, while also developing and assessing architectural and component layouts and investigating impact and failure scenarios.
Additionally, we are developing and verifying allowable damage tolerances, predicting and post-processing test results, designing and validating repair concepts, and optimizing topology and layup configurations. Virtual testing and progressive failure analysis—including assembly processes and parameter calibration—are also part of our integrated service offering.

01 Licensed to innovate

Certification & Testing

As a wholly owned subsidiary and independent laboratory (e.g. for  Airbus), CoLT Test Lab is operating directly on the FACC campus—delivering high-end material and component testing, as well as precision measurement services.

01 Licensed to innovate

Qualification

FACC ensures the safety of its lightweight systems through comprehensive verification and validation. Our Qualification Engineering team supports the entire certification process—from test planning and flammability testing to environmental and acoustic reports, Safety of Flight statements until TC/STC, as well as MRB support—delivering reliable and certified aerospace solutions.

01 Licensed to innovate

Thermoplastics

Thermoplastic composites are offering promising solutions to aviation challenges. They are providing weight savings for better fuel efficiency, faster production times, higher impact strength than thermosets, and can be welded, reducing or eliminating the need for fasteners. Additionally, they are easier to recycle at the end of their life cycle, making them indispensable for achieving economic and environmental goals in aviation.

01 Licensed to innovate

Thermosets

Thermoset composites are being recognized for their lightweight and high strength-to-weight ratio, making them perfect for aircraft parts. They are providing excellent thermal and electrical insulation, durability, and chemical resistance. Additionally, thermosets are being molded into complex shapes, enabling innovative designs.

01 Licensed to innovate

Bio-sourced resins

Bio-sourced resins are deriving some or all of their constituent monomers from biological sources, such as sugarcane. Their use is providing an alternative to phenolics (a class of resin) in aircraft. FACC’ researchers are exploring areas including furan and epoxy.

01 Licensed to innovate

Design Engineering

We’re operating with the strength of a large organization while staying agile enough to adapt to each customer’s unique needs.
When it comes to designing lightweight components and systems, you can think of it as being about three E’s: Environment, Efficiency, and Economy. We’re supporting our customers from day one – from the first concept to a series-ready product, whether for small or large-scale production.
We’re engineering with purpose: from requirement-driven construction and weight-optimized design to complex tooling. Our expertise in composites, metals, and assembly design, paired with cutting-edge tools like CATIA V5, 3DX, and NX, and seamless data interfaces, is enabling us to collaborate efficiently and bring aerospace innovations to market faster.

01 Licensed to innovate

Anlaysis engineering

We are providing comprehensive static and fatigue analyses for composite materials and metals, with a focus on complex lightweight structures. Continuously performing linear and nonlinear, static and dynamic simulations, we are aligning our results with test data to ensure accuracy. We are consistently evaluating strength, deformation, stability, risk, dynamics, fatigue, and damage tolerance, while also developing and assessing architectural and component layouts and investigating impact and failure scenarios.
Additionally, we are developing and verifying allowable damage tolerances, predicting and post-processing test results, designing and validating repair concepts, and optimizing topology and layup configurations. Virtual testing and progressive failure analysis—including assembly processes and parameter calibration—are also part of our integrated service offering.

01 Licensed to innovate

Certification & Testing

As a wholly owned subsidiary and independent laboratory (e.g. for  Airbus), CoLT Test Lab is operating directly on the FACC campus—delivering high-end material and component testing, as well as precision measurement services.

01 Licensed to innovate

Qualification

FACC ensures the safety of its lightweight systems through comprehensive verification and validation. Our Qualification Engineering team supports the entire certification process—from test planning and flammability testing to environmental and acoustic reports, Safety of Flight statements until TC/STC, as well as MRB support—delivering reliable and certified aerospace solutions.

01 Licensed to innovate

Thermoplastics

Thermoplastic composites are offering promising solutions to aviation challenges. They are providing weight savings for better fuel efficiency, faster production times, higher impact strength than thermosets, and can be welded, reducing or eliminating the need for fasteners. Additionally, they are easier to recycle at the end of their life cycle, making them indispensable for achieving economic and environmental goals in aviation.

01 Licensed to innovate

Thermosets

Thermoset composites are being recognized for their lightweight and high strength-to-weight ratio, making them perfect for aircraft parts. They are providing excellent thermal and electrical insulation, durability, and chemical resistance. Additionally, thermosets are being molded into complex shapes, enabling innovative designs.

01 Licensed to innovate

Bio-sourced resins

Bio-sourced resins are deriving some or all of their constituent monomers from biological sources, such as sugarcane. Their use is providing an alternative to phenolics (a class of resin) in aircraft. FACC’ researchers are exploring areas including furan and epoxy.

01 Licensed to innovate

Design Engineering

We’re operating with the strength of a large organization while staying agile enough to adapt to each customer’s unique needs.
When it comes to designing lightweight components and systems, you can think of it as being about three E’s: Environment, Efficiency, and Economy. We’re supporting our customers from day one – from the first concept to a series-ready product, whether for small or large-scale production.
We’re engineering with purpose: from requirement-driven construction and weight-optimized design to complex tooling. Our expertise in composites, metals, and assembly design, paired with cutting-edge tools like CATIA V5, 3DX, and NX, and seamless data interfaces, is enabling us to collaborate efficiently and bring aerospace innovations to market faster.

01 Licensed to innovate

Anlaysis engineering

We are providing comprehensive static and fatigue analyses for composite materials and metals, with a focus on complex lightweight structures. Continuously performing linear and nonlinear, static and dynamic simulations, we are aligning our results with test data to ensure accuracy. We are consistently evaluating strength, deformation, stability, risk, dynamics, fatigue, and damage tolerance, while also developing and assessing architectural and component layouts and investigating impact and failure scenarios.
Additionally, we are developing and verifying allowable damage tolerances, predicting and post-processing test results, designing and validating repair concepts, and optimizing topology and layup configurations. Virtual testing and progressive failure analysis—including assembly processes and parameter calibration—are also part of our integrated service offering.

01 Licensed to innovate

Certification & Testing

As a wholly owned subsidiary and independent laboratory (e.g. for  Airbus), CoLT Test Lab is operating directly on the FACC campus—delivering high-end material and component testing, as well as precision measurement services.

01 Licensed to innovate

Qualification

FACC ensures the safety of its lightweight systems through comprehensive verification and validation. Our Qualification Engineering team supports the entire certification process—from test planning and flammability testing to environmental and acoustic reports, Safety of Flight statements until TC/STC, as well as MRB support—delivering reliable and certified aerospace solutions.

01 Licensed to innovate

Thermoplastics

Thermoplastic composites are offering promising solutions to aviation challenges. They are providing weight savings for better fuel efficiency, faster production times, higher impact strength than thermosets, and can be welded, reducing or eliminating the need for fasteners. Additionally, they are easier to recycle at the end of their life cycle, making them indispensable for achieving economic and environmental goals in aviation.

01 Licensed to innovate

Thermosets

Thermoset composites are being recognized for their lightweight and high strength-to-weight ratio, making them perfect for aircraft parts. They are providing excellent thermal and electrical insulation, durability, and chemical resistance. Additionally, thermosets are being molded into complex shapes, enabling innovative designs.

01 Licensed to innovate

Bio-sourced resins

Bio-sourced resins are deriving some or all of their constituent monomers from biological sources, such as sugarcane. Their use is providing an alternative to phenolics (a class of resin) in aircraft. FACC’ researchers are exploring areas including furan and epoxy.

01 Licensed to innovate

Design Engineering

We’re operating with the strength of a large organization while staying agile enough to adapt to each customer’s unique needs.
When it comes to designing lightweight components and systems, you can think of it as being about three E’s: Environment, Efficiency, and Economy. We’re supporting our customers from day one – from the first concept to a series-ready product, whether for small or large-scale production.
We’re engineering with purpose: from requirement-driven construction and weight-optimized design to complex tooling. Our expertise in composites, metals, and assembly design, paired with cutting-edge tools like CATIA V5, 3DX, and NX, and seamless data interfaces, is enabling us to collaborate efficiently and bring aerospace innovations to market faster.

01 Licensed to innovate

Anlaysis engineering

We are providing comprehensive static and fatigue analyses for composite materials and metals, with a focus on complex lightweight structures. Continuously performing linear and nonlinear, static and dynamic simulations, we are aligning our results with test data to ensure accuracy. We are consistently evaluating strength, deformation, stability, risk, dynamics, fatigue, and damage tolerance, while also developing and assessing architectural and component layouts and investigating impact and failure scenarios.
Additionally, we are developing and verifying allowable damage tolerances, predicting and post-processing test results, designing and validating repair concepts, and optimizing topology and layup configurations. Virtual testing and progressive failure analysis—including assembly processes and parameter calibration—are also part of our integrated service offering.

01 Licensed to innovate

Certification & Testing

As a wholly owned subsidiary and independent laboratory (e.g. for  Airbus), CoLT Test Lab is operating directly on the FACC campus—delivering high-end material and component testing, as well as precision measurement services.

01 Licensed to innovate

Qualification

FACC ensures the safety of its lightweight systems through comprehensive verification and validation. Our Qualification Engineering team supports the entire certification process—from test planning and flammability testing to environmental and acoustic reports, Safety of Flight statements until TC/STC, as well as MRB support—delivering reliable and certified aerospace solutions.

01 Licensed to innovate

Thermoplastics

Thermoplastic composites are offering promising solutions to aviation challenges. They are providing weight savings for better fuel efficiency, faster production times, higher impact strength than thermosets, and can be welded, reducing or eliminating the need for fasteners. Additionally, they are easier to recycle at the end of their life cycle, making them indispensable for achieving economic and environmental goals in aviation.

01 Licensed to innovate

Thermosets

Thermoset composites are being recognized for their lightweight and high strength-to-weight ratio, making them perfect for aircraft parts. They are providing excellent thermal and electrical insulation, durability, and chemical resistance. Additionally, thermosets are being molded into complex shapes, enabling innovative designs.

01 Licensed to innovate

Bio-sourced resins

Bio-sourced resins are deriving some or all of their constituent monomers from biological sources, such as sugarcane. Their use is providing an alternative to phenolics (a class of resin) in aircraft. FACC’ researchers are exploring areas including furan and epoxy.

01 Licensed to innovate

Design Engineering

We’re operating with the strength of a large organization while staying agile enough to adapt to each customer’s unique needs.
When it comes to designing lightweight components and systems, you can think of it as being about three E’s: Environment, Efficiency, and Economy. We’re supporting our customers from day one – from the first concept to a series-ready product, whether for small or large-scale production.
We’re engineering with purpose: from requirement-driven construction and weight-optimized design to complex tooling. Our expertise in composites, metals, and assembly design, paired with cutting-edge tools like CATIA V5, 3DX, and NX, and seamless data interfaces, is enabling us to collaborate efficiently and bring aerospace innovations to market faster.

01 Licensed to innovate

Anlaysis engineering

We are providing comprehensive static and fatigue analyses for composite materials and metals, with a focus on complex lightweight structures. Continuously performing linear and nonlinear, static and dynamic simulations, we are aligning our results with test data to ensure accuracy. We are consistently evaluating strength, deformation, stability, risk, dynamics, fatigue, and damage tolerance, while also developing and assessing architectural and component layouts and investigating impact and failure scenarios.
Additionally, we are developing and verifying allowable damage tolerances, predicting and post-processing test results, designing and validating repair concepts, and optimizing topology and layup configurations. Virtual testing and progressive failure analysis—including assembly processes and parameter calibration—are also part of our integrated service offering.

01 Licensed to innovate

Certification & Testing

As a wholly owned subsidiary and independent laboratory (e.g. for  Airbus), CoLT Test Lab is operating directly on the FACC campus—delivering high-end material and component testing, as well as precision measurement services.

01 Licensed to innovate

Qualification

FACC ensures the safety of its lightweight systems through comprehensive verification and validation. Our Qualification Engineering team supports the entire certification process—from test planning and flammability testing to environmental and acoustic reports, Safety of Flight statements until TC/STC, as well as MRB support—delivering reliable and certified aerospace solutions.

01 Licensed to innovate

Thermoplastics

Thermoplastic composites are offering promising solutions to aviation challenges. They are providing weight savings for better fuel efficiency, faster production times, higher impact strength than thermosets, and can be welded, reducing or eliminating the need for fasteners. Additionally, they are easier to recycle at the end of their life cycle, making them indispensable for achieving economic and environmental goals in aviation.

01 Licensed to innovate

Thermosets

Thermoset composites are being recognized for their lightweight and high strength-to-weight ratio, making them perfect for aircraft parts. They are providing excellent thermal and electrical insulation, durability, and chemical resistance. Additionally, thermosets are being molded into complex shapes, enabling innovative designs.

01 Licensed to innovate

Bio-sourced resins

Bio-sourced resins are deriving some or all of their constituent monomers from biological sources, such as sugarcane. Their use is providing an alternative to phenolics (a class of resin) in aircraft. FACC’ researchers are exploring areas including furan and epoxy.

01 Licensed to innovate

Design Engineering

We’re operating with the strength of a large organization while staying agile enough to adapt to each customer’s unique needs.
When it comes to designing lightweight components and systems, you can think of it as being about three E’s: Environment, Efficiency, and Economy. We’re supporting our customers from day one – from the first concept to a series-ready product, whether for small or large-scale production.
We’re engineering with purpose: from requirement-driven construction and weight-optimized design to complex tooling. Our expertise in composites, metals, and assembly design, paired with cutting-edge tools like CATIA V5, 3DX, and NX, and seamless data interfaces, is enabling us to collaborate efficiently and bring aerospace innovations to market faster.

01 Licensed to innovate

Anlaysis engineering

We are providing comprehensive static and fatigue analyses for composite materials and metals, with a focus on complex lightweight structures. Continuously performing linear and nonlinear, static and dynamic simulations, we are aligning our results with test data to ensure accuracy. We are consistently evaluating strength, deformation, stability, risk, dynamics, fatigue, and damage tolerance, while also developing and assessing architectural and component layouts and investigating impact and failure scenarios.
Additionally, we are developing and verifying allowable damage tolerances, predicting and post-processing test results, designing and validating repair concepts, and optimizing topology and layup configurations. Virtual testing and progressive failure analysis—including assembly processes and parameter calibration—are also part of our integrated service offering.

01 Licensed to innovate

Certification & Testing

As a wholly owned subsidiary and independent laboratory (e.g. for  Airbus), CoLT Test Lab is operating directly on the FACC campus—delivering high-end material and component testing, as well as precision measurement services.

01 Licensed to innovate

Qualification

FACC ensures the safety of its lightweight systems through comprehensive verification and validation. Our Qualification Engineering team supports the entire certification process—from test planning and flammability testing to environmental and acoustic reports, Safety of Flight statements until TC/STC, as well as MRB support—delivering reliable and certified aerospace solutions.

01 Licensed to innovate

Thermoplastics

Thermoplastic composites are offering promising solutions to aviation challenges. They are providing weight savings for better fuel efficiency, faster production times, higher impact strength than thermosets, and can be welded, reducing or eliminating the need for fasteners. Additionally, they are easier to recycle at the end of their life cycle, making them indispensable for achieving economic and environmental goals in aviation.

01 Licensed to innovate

Thermosets

Thermoset composites are being recognized for their lightweight and high strength-to-weight ratio, making them perfect for aircraft parts. They are providing excellent thermal and electrical insulation, durability, and chemical resistance. Additionally, thermosets are being molded into complex shapes, enabling innovative designs.

01 Licensed to innovate

Bio-sourced resins

Bio-sourced resins are deriving some or all of their constituent monomers from biological sources, such as sugarcane. Their use is providing an alternative to phenolics (a class of resin) in aircraft. FACC’ researchers are exploring areas including furan and epoxy.

01 Licensed to innovate

Design Engineering

We’re operating with the strength of a large organization while staying agile enough to adapt to each customer’s unique needs.
When it comes to designing lightweight components and systems, you can think of it as being about three E’s: Environment, Efficiency, and Economy. We’re supporting our customers from day one – from the first concept to a series-ready product, whether for small or large-scale production.
We’re engineering with purpose: from requirement-driven construction and weight-optimized design to complex tooling. Our expertise in composites, metals, and assembly design, paired with cutting-edge tools like CATIA V5, 3DX, and NX, and seamless data interfaces, is enabling us to collaborate efficiently and bring aerospace innovations to market faster.

01 Licensed to innovate

Anlaysis engineering

We are providing comprehensive static and fatigue analyses for composite materials and metals, with a focus on complex lightweight structures. Continuously performing linear and nonlinear, static and dynamic simulations, we are aligning our results with test data to ensure accuracy. We are consistently evaluating strength, deformation, stability, risk, dynamics, fatigue, and damage tolerance, while also developing and assessing architectural and component layouts and investigating impact and failure scenarios.
Additionally, we are developing and verifying allowable damage tolerances, predicting and post-processing test results, designing and validating repair concepts, and optimizing topology and layup configurations. Virtual testing and progressive failure analysis—including assembly processes and parameter calibration—are also part of our integrated service offering.

01 Licensed to innovate

Certification & Testing

As a wholly owned subsidiary and independent laboratory (e.g. for  Airbus), CoLT Test Lab is operating directly on the FACC campus—delivering high-end material and component testing, as well as precision measurement services.

01 Licensed to innovate

Qualification

FACC ensures the safety of its lightweight systems through comprehensive verification and validation. Our Qualification Engineering team supports the entire certification process—from test planning and flammability testing to environmental and acoustic reports, Safety of Flight statements until TC/STC, as well as MRB support—delivering reliable and certified aerospace solutions.

02 Unique Value in series

Tooling

In aerospace manufacturing, precision, durability, and efficiency are non-negotiable. Machining and tooling are key to meeting these demands—ensuring every component meets exacting standards and performs under extreme conditions. By optimizing the entire value stream, we design highly standardized toolings with minimal setup times, capable of machining advanced materials, producing intricate geometries, and maximizing production efficiency.

02 Unique Value in series

Automated Tape Laying

Automated tape laying (ATL) is enabling us to manufacture large parts with high productivity. As one of the most well-established techniques for composites, ATL is replicating manual deposition at higher speeds, on larger parts, with greater process control. It is increasing efficiency, ensuring consistent application, reducing manual labor, and handling complex geometries. ATL is enhancing mechanical properties and minimizing material waste, making it invaluable for high-performance composite components.

02 Unique Value in series

Hot Drape Forming

Hot Drape Forming is enabling the precise shaping of carbon fiber pre-preg materials over intricate tooling shapes. By applying uniform and controlled heat and vacuum, hot drape formers are eliminating stress wrinkles and waves, ensuring high-quality, cost-effective production of complex parts like stringers and C-beams.

02 Unique Value in series

CNC Machining

Our 5-axis CNC machining is offering exceptional precision, reducing setup times, improving surface quality, and increasing cost-effectiveness. It is boosting efficiency and productivity, handling complex geometries, improving tool life and durability, offering material flexibility, and ensuring consistency in large-scale production.

02 Unique Value in series

Autoclave

Our autoclaves ensure optimum fibre compaction and minimal air entrapment, significantly enhancing mechanical properties. This delivers exceptional surface quality and remarkable temperature resistance, paving the way for the creation of complex geometries and structures. Our autoclaves are not just tools; they are catalysts for excellence, driving the future of high-performance materials.

02 Unique Value in series

Robot drilling cell

Precision is being crucial in the aerospace industry. Our lightweight components are requiring thousands of holes – and every single one is needing to be perfect. Our high-precision 7-axis robot drilling cell is performing countersinking with repeatable accuracy and the required positioning precision. Tool changes are being fully automatic, and the machining tools are being inserted during operation.

02 Unique Value in series

Industrialization

Industrialization is at the core of our production strategy. From day one, we’ve focused on implementing highly efficient, standardized processes to eliminate waste, reduce lead times, and simplify workflows. This enables us to deliver high-quality aerospace components quickly and cost-effectively. Our industrialized approach ensures manufacturing processes are reliable, repeatable, and scalable. Standardization enhances procurement, maintenance, and repair efficiency. Through continuous technological innovation, we push the boundaries of what industrialized aerospace manufacturing can achieve.

02 Unique Value in series

Tooling

In aerospace manufacturing, precision, durability, and efficiency are non-negotiable. Machining and tooling are key to meeting these demands—ensuring every component meets exacting standards and performs under extreme conditions. By optimizing the entire value stream, we design highly standardized toolings with minimal setup times, capable of machining advanced materials, producing intricate geometries, and maximizing production efficiency.

02 Unique Value in series

Automated Tape Laying

Automated tape laying (ATL) is enabling us to manufacture large parts with high productivity. As one of the most well-established techniques for composites, ATL is replicating manual deposition at higher speeds, on larger parts, with greater process control. It is increasing efficiency, ensuring consistent application, reducing manual labor, and handling complex geometries. ATL is enhancing mechanical properties and minimizing material waste, making it invaluable for high-performance composite components.

02 Unique Value in series

Hot Drape Forming

Hot Drape Forming is enabling the precise shaping of carbon fiber pre-preg materials over intricate tooling shapes. By applying uniform and controlled heat and vacuum, hot drape formers are eliminating stress wrinkles and waves, ensuring high-quality, cost-effective production of complex parts like stringers and C-beams.

02 Unique Value in series

CNC Machining

Our 5-axis CNC machining is offering exceptional precision, reducing setup times, improving surface quality, and increasing cost-effectiveness. It is boosting efficiency and productivity, handling complex geometries, improving tool life and durability, offering material flexibility, and ensuring consistency in large-scale production.

02 Unique Value in series

Autoclave

Our autoclaves ensure optimum fibre compaction and minimal air entrapment, significantly enhancing mechanical properties. This delivers exceptional surface quality and remarkable temperature resistance, paving the way for the creation of complex geometries and structures. Our autoclaves are not just tools; they are catalysts for excellence, driving the future of high-performance materials.

02 Unique Value in series

Robot drilling cell

Precision is being crucial in the aerospace industry. Our lightweight components are requiring thousands of holes – and every single one is needing to be perfect. Our high-precision 7-axis robot drilling cell is performing countersinking with repeatable accuracy and the required positioning precision. Tool changes are being fully automatic, and the machining tools are being inserted during operation.

02 Unique Value in series

Industrialization

Industrialization is at the core of our production strategy. From day one, we’ve focused on implementing highly efficient, standardized processes to eliminate waste, reduce lead times, and simplify workflows. This enables us to deliver high-quality aerospace components quickly and cost-effectively. Our industrialized approach ensures manufacturing processes are reliable, repeatable, and scalable. Standardization enhances procurement, maintenance, and repair efficiency. Through continuous technological innovation, we push the boundaries of what industrialized aerospace manufacturing can achieve.

02 Unique Value in series

Tooling

In aerospace manufacturing, precision, durability, and efficiency are non-negotiable. Machining and tooling are key to meeting these demands—ensuring every component meets exacting standards and performs under extreme conditions. By optimizing the entire value stream, we design highly standardized toolings with minimal setup times, capable of machining advanced materials, producing intricate geometries, and maximizing production efficiency.

02 Unique Value in series

Automated Tape Laying

Automated tape laying (ATL) is enabling us to manufacture large parts with high productivity. As one of the most well-established techniques for composites, ATL is replicating manual deposition at higher speeds, on larger parts, with greater process control. It is increasing efficiency, ensuring consistent application, reducing manual labor, and handling complex geometries. ATL is enhancing mechanical properties and minimizing material waste, making it invaluable for high-performance composite components.

02 Unique Value in series

Hot Drape Forming

Hot Drape Forming is enabling the precise shaping of carbon fiber pre-preg materials over intricate tooling shapes. By applying uniform and controlled heat and vacuum, hot drape formers are eliminating stress wrinkles and waves, ensuring high-quality, cost-effective production of complex parts like stringers and C-beams.

02 Unique Value in series

CNC Machining

Our 5-axis CNC machining is offering exceptional precision, reducing setup times, improving surface quality, and increasing cost-effectiveness. It is boosting efficiency and productivity, handling complex geometries, improving tool life and durability, offering material flexibility, and ensuring consistency in large-scale production.

02 Unique Value in series

Autoclave

Our autoclaves ensure optimum fibre compaction and minimal air entrapment, significantly enhancing mechanical properties. This delivers exceptional surface quality and remarkable temperature resistance, paving the way for the creation of complex geometries and structures. Our autoclaves are not just tools; they are catalysts for excellence, driving the future of high-performance materials.

02 Unique Value in series

Robot drilling cell

Precision is being crucial in the aerospace industry. Our lightweight components are requiring thousands of holes – and every single one is needing to be perfect. Our high-precision 7-axis robot drilling cell is performing countersinking with repeatable accuracy and the required positioning precision. Tool changes are being fully automatic, and the machining tools are being inserted during operation.

02 Unique Value in series

Industrialization

Industrialization is at the core of our production strategy. From day one, we’ve focused on implementing highly efficient, standardized processes to eliminate waste, reduce lead times, and simplify workflows. This enables us to deliver high-quality aerospace components quickly and cost-effectively. Our industrialized approach ensures manufacturing processes are reliable, repeatable, and scalable. Standardization enhances procurement, maintenance, and repair efficiency. Through continuous technological innovation, we push the boundaries of what industrialized aerospace manufacturing can achieve.

02 Unique Value in series

Tooling

In aerospace manufacturing, precision, durability, and efficiency are non-negotiable. Machining and tooling are key to meeting these demands—ensuring every component meets exacting standards and performs under extreme conditions. By optimizing the entire value stream, we design highly standardized toolings with minimal setup times, capable of machining advanced materials, producing intricate geometries, and maximizing production efficiency.

02 Unique Value in series

Automated Tape Laying

Automated tape laying (ATL) is enabling us to manufacture large parts with high productivity. As one of the most well-established techniques for composites, ATL is replicating manual deposition at higher speeds, on larger parts, with greater process control. It is increasing efficiency, ensuring consistent application, reducing manual labor, and handling complex geometries. ATL is enhancing mechanical properties and minimizing material waste, making it invaluable for high-performance composite components.

02 Unique Value in series

Hot Drape Forming

Hot Drape Forming is enabling the precise shaping of carbon fiber pre-preg materials over intricate tooling shapes. By applying uniform and controlled heat and vacuum, hot drape formers are eliminating stress wrinkles and waves, ensuring high-quality, cost-effective production of complex parts like stringers and C-beams.

02 Unique Value in series

CNC Machining

Our 5-axis CNC machining is offering exceptional precision, reducing setup times, improving surface quality, and increasing cost-effectiveness. It is boosting efficiency and productivity, handling complex geometries, improving tool life and durability, offering material flexibility, and ensuring consistency in large-scale production.

02 Unique Value in series

Autoclave

Our autoclaves ensure optimum fibre compaction and minimal air entrapment, significantly enhancing mechanical properties. This delivers exceptional surface quality and remarkable temperature resistance, paving the way for the creation of complex geometries and structures. Our autoclaves are not just tools; they are catalysts for excellence, driving the future of high-performance materials.

02 Unique Value in series

Robot drilling cell

Precision is being crucial in the aerospace industry. Our lightweight components are requiring thousands of holes – and every single one is needing to be perfect. Our high-precision 7-axis robot drilling cell is performing countersinking with repeatable accuracy and the required positioning precision. Tool changes are being fully automatic, and the machining tools are being inserted during operation.

02 Unique Value in series

Industrialization

Industrialization is at the core of our production strategy. From day one, we’ve focused on implementing highly efficient, standardized processes to eliminate waste, reduce lead times, and simplify workflows. This enables us to deliver high-quality aerospace components quickly and cost-effectively. Our industrialized approach ensures manufacturing processes are reliable, repeatable, and scalable. Standardization enhances procurement, maintenance, and repair efficiency. Through continuous technological innovation, we push the boundaries of what industrialized aerospace manufacturing can achieve.

02 Unique Value in series

Tooling

In aerospace manufacturing, precision, durability, and efficiency are non-negotiable. Machining and tooling are key to meeting these demands—ensuring every component meets exacting standards and performs under extreme conditions. By optimizing the entire value stream, we design highly standardized toolings with minimal setup times, capable of machining advanced materials, producing intricate geometries, and maximizing production efficiency.

02 Unique Value in series

Automated Tape Laying

Automated tape laying (ATL) is enabling us to manufacture large parts with high productivity. As one of the most well-established techniques for composites, ATL is replicating manual deposition at higher speeds, on larger parts, with greater process control. It is increasing efficiency, ensuring consistent application, reducing manual labor, and handling complex geometries. ATL is enhancing mechanical properties and minimizing material waste, making it invaluable for high-performance composite components.

02 Unique Value in series

Hot Drape Forming

Hot Drape Forming is enabling the precise shaping of carbon fiber pre-preg materials over intricate tooling shapes. By applying uniform and controlled heat and vacuum, hot drape formers are eliminating stress wrinkles and waves, ensuring high-quality, cost-effective production of complex parts like stringers and C-beams.

02 Unique Value in series

CNC Machining

Our 5-axis CNC machining is offering exceptional precision, reducing setup times, improving surface quality, and increasing cost-effectiveness. It is boosting efficiency and productivity, handling complex geometries, improving tool life and durability, offering material flexibility, and ensuring consistency in large-scale production.

02 Unique Value in series

Autoclave

Our autoclaves ensure optimum fibre compaction and minimal air entrapment, significantly enhancing mechanical properties. This delivers exceptional surface quality and remarkable temperature resistance, paving the way for the creation of complex geometries and structures. Our autoclaves are not just tools; they are catalysts for excellence, driving the future of high-performance materials.

02 Unique Value in series

Robot drilling cell

Precision is being crucial in the aerospace industry. Our lightweight components are requiring thousands of holes – and every single one is needing to be perfect. Our high-precision 7-axis robot drilling cell is performing countersinking with repeatable accuracy and the required positioning precision. Tool changes are being fully automatic, and the machining tools are being inserted during operation.

02 Unique Value in series

Industrialization

Industrialization is at the core of our production strategy. From day one, we’ve focused on implementing highly efficient, standardized processes to eliminate waste, reduce lead times, and simplify workflows. This enables us to deliver high-quality aerospace components quickly and cost-effectively. Our industrialized approach ensures manufacturing processes are reliable, repeatable, and scalable. Standardization enhances procurement, maintenance, and repair efficiency. Through continuous technological innovation, we push the boundaries of what industrialized aerospace manufacturing can achieve.

02 Unique Value in series

Tooling

In aerospace manufacturing, precision, durability, and efficiency are non-negotiable. Machining and tooling are key to meeting these demands—ensuring every component meets exacting standards and performs under extreme conditions. By optimizing the entire value stream, we design highly standardized toolings with minimal setup times, capable of machining advanced materials, producing intricate geometries, and maximizing production efficiency.

02 Unique Value in series

Automated Tape Laying

Automated tape laying (ATL) is enabling us to manufacture large parts with high productivity. As one of the most well-established techniques for composites, ATL is replicating manual deposition at higher speeds, on larger parts, with greater process control. It is increasing efficiency, ensuring consistent application, reducing manual labor, and handling complex geometries. ATL is enhancing mechanical properties and minimizing material waste, making it invaluable for high-performance composite components.

02 Unique Value in series

Hot Drape Forming

Hot Drape Forming is enabling the precise shaping of carbon fiber pre-preg materials over intricate tooling shapes. By applying uniform and controlled heat and vacuum, hot drape formers are eliminating stress wrinkles and waves, ensuring high-quality, cost-effective production of complex parts like stringers and C-beams.

02 Unique Value in series

CNC Machining

Our 5-axis CNC machining is offering exceptional precision, reducing setup times, improving surface quality, and increasing cost-effectiveness. It is boosting efficiency and productivity, handling complex geometries, improving tool life and durability, offering material flexibility, and ensuring consistency in large-scale production.

02 Unique Value in series

Autoclave

Our autoclaves ensure optimum fibre compaction and minimal air entrapment, significantly enhancing mechanical properties. This delivers exceptional surface quality and remarkable temperature resistance, paving the way for the creation of complex geometries and structures. Our autoclaves are not just tools; they are catalysts for excellence, driving the future of high-performance materials.

02 Unique Value in series

Robot drilling cell

Precision is being crucial in the aerospace industry. Our lightweight components are requiring thousands of holes – and every single one is needing to be perfect. Our high-precision 7-axis robot drilling cell is performing countersinking with repeatable accuracy and the required positioning precision. Tool changes are being fully automatic, and the machining tools are being inserted during operation.

02 Unique Value in series

Industrialization

Industrialization is at the core of our production strategy. From day one, we’ve focused on implementing highly efficient, standardized processes to eliminate waste, reduce lead times, and simplify workflows. This enables us to deliver high-quality aerospace components quickly and cost-effectively. Our industrialized approach ensures manufacturing processes are reliable, repeatable, and scalable. Standardization enhances procurement, maintenance, and repair efficiency. Through continuous technological innovation, we push the boundaries of what industrialized aerospace manufacturing can achieve.

02 Unique Value in series

Tooling

In aerospace manufacturing, precision, durability, and efficiency are non-negotiable. Machining and tooling are key to meeting these demands—ensuring every component meets exacting standards and performs under extreme conditions. By optimizing the entire value stream, we design highly standardized toolings with minimal setup times, capable of machining advanced materials, producing intricate geometries, and maximizing production efficiency.

02 Unique Value in series

Automated Tape Laying

Automated tape laying (ATL) is enabling us to manufacture large parts with high productivity. As one of the most well-established techniques for composites, ATL is replicating manual deposition at higher speeds, on larger parts, with greater process control. It is increasing efficiency, ensuring consistent application, reducing manual labor, and handling complex geometries. ATL is enhancing mechanical properties and minimizing material waste, making it invaluable for high-performance composite components.

02 Unique Value in series

Hot Drape Forming

Hot Drape Forming is enabling the precise shaping of carbon fiber pre-preg materials over intricate tooling shapes. By applying uniform and controlled heat and vacuum, hot drape formers are eliminating stress wrinkles and waves, ensuring high-quality, cost-effective production of complex parts like stringers and C-beams.

02 Unique Value in series

CNC Machining

Our 5-axis CNC machining is offering exceptional precision, reducing setup times, improving surface quality, and increasing cost-effectiveness. It is boosting efficiency and productivity, handling complex geometries, improving tool life and durability, offering material flexibility, and ensuring consistency in large-scale production.

02 Unique Value in series

Autoclave

Our autoclaves ensure optimum fibre compaction and minimal air entrapment, significantly enhancing mechanical properties. This delivers exceptional surface quality and remarkable temperature resistance, paving the way for the creation of complex geometries and structures. Our autoclaves are not just tools; they are catalysts for excellence, driving the future of high-performance materials.

02 Unique Value in series

Robot drilling cell

Precision is being crucial in the aerospace industry. Our lightweight components are requiring thousands of holes – and every single one is needing to be perfect. Our high-precision 7-axis robot drilling cell is performing countersinking with repeatable accuracy and the required positioning precision. Tool changes are being fully automatic, and the machining tools are being inserted during operation.

02 Unique Value in series

Industrialization

Industrialization is at the core of our production strategy. From day one, we’ve focused on implementing highly efficient, standardized processes to eliminate waste, reduce lead times, and simplify workflows. This enables us to deliver high-quality aerospace components quickly and cost-effectively. Our industrialized approach ensures manufacturing processes are reliable, repeatable, and scalable. Standardization enhances procurement, maintenance, and repair efficiency. Through continuous technological innovation, we push the boundaries of what industrialized aerospace manufacturing can achieve.

03 Sustainability in our blood

MRO Inspection

To ensure maximum availability and reliability of aircraft, FACC Aftermarket Services offers operators, OEMs, and MROs a wide range of services for the repair, modification, overhaul, and inspection of aircraft components. As an Original Component Manufacturer (OCM), we provide comprehensive expertise, specialized tools, qualified personnel, non-destructive testing (NDT) procedures, and all necessary operating resources and approvals.

03 Sustainability in our blood

Composite Repair

To ensure maximum availability and reliability of aircraft, FACC Aftermarket Services is offering Operators, OEMs, and MROs a wide range of capabilities for the repair, modification, overhaul, and inspection of aircraft components. As an Original Component Manufacturer (OCM), we are providing a comprehensive range of expertise, tools, manpower, NDT services, and consumables, along with all required approvals.

03 Sustainability in our blood

Modifications

The blended and split scimitar winglet technology developed by Aviation Partners Boeing and manufactured by FACC benefits the environment in two ways: it consumes less fuel and reduces CO₂ emissions compared to aircraft without winglets.

03 Sustainability in our blood

MRO Inspection

To ensure maximum availability and reliability of aircraft, FACC Aftermarket Services offers operators, OEMs, and MROs a wide range of services for the repair, modification, overhaul, and inspection of aircraft components. As an Original Component Manufacturer (OCM), we provide comprehensive expertise, specialized tools, qualified personnel, non-destructive testing (NDT) procedures, and all necessary operating resources and approvals.

03 Sustainability in our blood

Composite Repair

To ensure maximum availability and reliability of aircraft, FACC Aftermarket Services is offering Operators, OEMs, and MROs a wide range of capabilities for the repair, modification, overhaul, and inspection of aircraft components. As an Original Component Manufacturer (OCM), we are providing a comprehensive range of expertise, tools, manpower, NDT services, and consumables, along with all required approvals.

03 Sustainability in our blood

Modifications

The blended and split scimitar winglet technology developed by Aviation Partners Boeing and manufactured by FACC benefits the environment in two ways: it consumes less fuel and reduces CO₂ emissions compared to aircraft without winglets.

03 Sustainability in our blood

MRO Inspection

To ensure maximum availability and reliability of aircraft, FACC Aftermarket Services offers operators, OEMs, and MROs a wide range of services for the repair, modification, overhaul, and inspection of aircraft components. As an Original Component Manufacturer (OCM), we provide comprehensive expertise, specialized tools, qualified personnel, non-destructive testing (NDT) procedures, and all necessary operating resources and approvals.

03 Sustainability in our blood

Composite Repair

To ensure maximum availability and reliability of aircraft, FACC Aftermarket Services is offering Operators, OEMs, and MROs a wide range of capabilities for the repair, modification, overhaul, and inspection of aircraft components. As an Original Component Manufacturer (OCM), we are providing a comprehensive range of expertise, tools, manpower, NDT services, and consumables, along with all required approvals.

03 Sustainability in our blood

Modifications

The blended and split scimitar winglet technology developed by Aviation Partners Boeing and manufactured by FACC benefits the environment in two ways: it consumes less fuel and reduces CO₂ emissions compared to aircraft without winglets.