As principais áreas de competência compreendem serviços similares e complementares oferecidos pelo Fraunhofer IPK em Berlim e pelo CCM-ITA em São José dos Campos. O IPK e o CCM oferecem uma grande gama de produtos e serviços em seus portfólios.
Condition Monitoring in Industrie 4.0
Flexible Transparent Manufacturing
Reduction of energy consumption, increase of productivity and costs saving
Semantic product data for engineering
Flexible Transparent Manufacturing
Mobile App for Quality Assurance
Reinforcement learning for complex automation technology applications
Development of AI models with data responses from resistance welding process
Application Center for Micro-Production Technology
Application Center for Micro-Production Technology
Manufacturing high-precision components with micro-features
Laser surface structuring to reduce bacterial adhesion
Flexibility, precision and automation with industrial robots
Performance and efficiency of industrial robots
Development of a high innovative process through automatic align with industrial robots using a programming called cooperative movement
Development of an automatic process for robotic assembly of aircraft structures and a cooperative robotic system for drilling and inserting fasteners for aeronautical fuselages
Development of robotic systems and end effectors applied in industrial robots to execute the tasks necessary to manufacturing aircraft wings
Development of end-effectors to complement the necessary tasks for the automation of aircraft structural assembly
Development of a force amplification system to handle large pipes
Condition Monitoring in Industrie 4.0
IoT-based services for industrial production
Measuring and testing with mobile cameras
Reduction of energy consumption, increase of productivity and costs saving
Intelligent solutions for Predictive Maintenance
Flexible Transparent Manufacturing
Development, deployment and adaptation of production and manufacturing technologies
Machining of complex free-form surfaces on Ceramic Matrix Composite
Development of technologies and strategies for the finishing high-performance ceramics
Evaluation of the drilling process, regarding machinability of the cast iron, using minimum quantities of lubricant (MQL) and flood rating
Evaluation of the influence of the company’s commercial steel alloy modifications, compared to the material’s machinability with the addition of alloy elements
Evaluation of the differences between both alloys in what concern the machinability, specially the chips characteristics
Evaluation of the efficacy of the tools made with niobium carbide as their substrate
Evaluation of the influence of material and cutting parameters in the machinability of guide seats
Development of end-effectors to complement the necessary tasks for the automation of aircraft structural assembly
Optimizing heat flows and reducing dimensional deviations - G3 - DRS - Design for residual stress in gear manufacturing chain
Develop a predictive model for RS in gears induced by the interaction between manufacturing processes
Dry and residue-free in-process cleaning of aluminum cast parts
Development of resource-saving and energy-efficient MRO processes and technologies
Removal of surface impurities and reduction of downtimes
Increasing the degree of automation and flexibility in repair and maintenance
Pre-treatment, cleaning, cutting and decoating with CO2 technologies
This feasibility study aimed to explore the challenges of additive manufacturing application for gear teeth repair and the evolution to a robust design
Evaluation of the cutting fluids that could be used by the company and its suppliers in Aerospace Industry
Identification of the fatigue behavior of gears subjected to an alternative powder metallurgy manufacturing chain, recording them by using an S-n curve
Application of the "integrated product development" method to the design of the powertrain components manufacturing chain
Analyze the interaction between surfaces and their connection to the state of finishing in order to optimize the screw connection used to close a planetary gear unit
Analyze the interaction between surfaces and their connection to the state of finishing in order to optimize the screw connection used to close a planetary gear unit
Process development, parameters determination and technical & economic assessment
Welding of longitudinal seams in large-diameter pipe production
Process development, parameters determination and technical & economic assessment
Resistance spot welding of steel and aluminum sheets with a thickness of approximately three millimeters
Influence of surface coatings on liquid metal embrittlement
Reducing distortions through process simulation
Research to investigate the influence of the welding parameters on the integrity of AHSS weld spots and to understand how significant is the effect of a processing chain on the integrity when compared to the “as-welded” condition
Identification of the welding parameters’ influence on the properties of dissimilar TWIP - Aluminum Killed Drawing Quality (AKDQ) steel RSW joint
Reducing distortions through process simulation
Increased functionality for additively manufactured components
Process for embedding sensors & actuators in additive components
Continuous quality control during laser cladding
Development of metal-polymer composite gears manufactured by additive manufacturing
This feasibility study aimed to explore the challenges of additive manufacturing application for gear teeth repair and the evolution to a robust design