How can the protective layer be applied to the brake disk more quickly and more effectively? And how can it be made to stay on for longer? “The solution is intelligent coatings, as can be applied to brake disks using our AM coating system” says Dr. Géza Koscsák – the Head of Additive Manufacturing at the CHIRON Group. He has played a prominent role in developing the new system and reaching the decision to opt for the high-speed deposition welding process in his previous job as Head of Advanced Development.
Innovative and productive process
Compared with the conventional LMD process, powder particles travel a longer distance before they are applied during high-speed laser material deposition. This means that they absorb more energy and melt in the laser beam, which enables a significantly faster coating speed. This process also has a clear advantage in comparison to thermal coating using high-velocity oxygen fuel spraying.
AM coating’s quicker speed and shorter process are two advantages with respect to the future Euro 7 standard, believes Dr. Koscsák. “When the standard comes – and it certainly will come – a production volume of 10 million brake disks annually will need to be managed, for the European vehicle brands alone. With a cycle time for conventional brake disks of around 30 seconds per disk, it’s clear that the coating process needs to keep up” he adds.
In line with market requirements: AM Coating available in two versions
AM Coating TWIN is specifically designed for series production. The system works with two lasers for front and rear coating and the brake disks are transferred automatically.
AM Coating SINGLE is the ideal choice if you would like to test materials and material combinations in parallel with or before series production, to develop the application process or to manufacture small series. Upon request, the team of experts at the CHIRON Group can provide support during process development, either at the customer premises or in Tuttlingen. “We could install a base machine here,” says Dr. Koscsák, outlining a potential scenario, “where the customer’s specialists can learn the process, run tests and set up the parameters with us ready for series production. Or, for a continuous and even more productive process, we can integrate a grinding machine and perfectly coordinate both systems.”
Top-quality, firmly bonded application
Of course, productivity is not enough on its own – the quality of the coatings needs to be right too. What about crack formation and durability? Project Manager Ernest Frombach says “We use high-speed laser material deposition to achieve improved adhesion through the firmly bonded connection. The layers are also thinner, down to tenths of a millimeter. This uses less material, and our powder management enables us to achieve a high degree of powder utilization. The powder and hard material layers are applied directly one after the other. By applying the first layer, the brake disk is tempered as it were, and we consistently achieve the best application quality for every brake disk without pores or cracks forming.”
AM Coating: Innovative coatings for brake disks
A high-speed process to protect against corrosion and wear
How can the protective layer be applied to the brake disk more quickly and more effectively? And how can it be made to stay on for longer? “The solution is intelligent coatings, as can be applied to brake disks using our AM coating system” says Dr. Géza Koscsák – the Head of Additive Manufacturing at the CHIRON Group. He has played a prominent role in developing the new system and reaching the decision to opt for the high-speed deposition welding process in his previous job as Head of Advanced Development.
Innovative and productive process
Compared with the conventional LMD process, powder particles travel a longer distance before they are applied during high-speed laser material deposition. This means that they absorb more energy and melt in the laser beam, which enables a significantly faster coating speed. This process also has a clear advantage in comparison to thermal coating using high-velocity oxygen fuel spraying.
AM coating’s quicker speed and shorter process are two advantages with respect to the future Euro 7 standard, believes Dr. Koscsák. “When the standard comes – and it certainly will come – a production volume of 10 million brake disks annually will need to be managed, for the European vehicle brands alone. With a cycle time for conventional brake disks of around 30 seconds per disk, it’s clear that the coating process needs to keep up” he adds.
In line with market requirements: AM Coating available in two versions
AM Coating TWIN is specifically designed for series production. The system works with two lasers for front and rear coating and the brake disks are transferred automatically.
AM Coating SINGLE is the ideal choice if you would like to test materials and material combinations in parallel with or before series production, to develop the application process or to manufacture small series. Upon request, the team of experts at the CHIRON Group can provide support during process development, either at the customer premises or in Tuttlingen. “We could install a base machine here,” says Dr. Koscsák, outlining a potential scenario, “where the customer’s specialists can learn the process, run tests and set up the parameters with us ready for series production. Or, for a continuous and even more productive process, we can integrate a grinding machine and perfectly coordinate both systems.”
Top-quality, firmly bonded application
Of course, productivity is not enough on its own – the quality of the coatings needs to be right too. What about crack formation and durability? Project Manager Ernest Frombach says “We use high-speed laser material deposition to achieve improved adhesion through the firmly bonded connection. The layers are also thinner, down to tenths of a millimeter. This uses less material, and our powder management enables us to achieve a high degree of powder utilization. The powder and hard material layers are applied directly one after the other. By applying the first layer, the brake disk is tempered as it were, and we consistently achieve the best application quality for every brake disk without pores or cracks forming.”
AM Coating: Innovative coatings for brake disks
A high-speed process to protect against corrosion and wear
How can the protective layer be applied to the brake disk more quickly and more effectively? And how can it be made to stay on for longer? “The solution is intelligent coatings, as can be applied to brake disks using our AM coating system” says Dr. Géza Koscsák – the Head of Additive Manufacturing at the CHIRON Group. He has played a prominent role in developing the new system and reaching the decision to opt for the high-speed deposition welding process in his previous job as Head of Advanced Development.
Innovative and productive process
Compared with the conventional LMD process, powder particles travel a longer distance before they are applied during high-speed laser material deposition. This means that they absorb more energy and melt in the laser beam, which enables a significantly faster coating speed. This process also has a clear advantage in comparison to thermal coating using high-velocity oxygen fuel spraying.
AM coating’s quicker speed and shorter process are two advantages with respect to the future Euro 7 standard, believes Dr. Koscsák. “When the standard comes – and it certainly will come – a production volume of 10 million brake disks annually will need to be managed, for the European vehicle brands alone. With a cycle time for conventional brake disks of around 30 seconds per disk, it’s clear that the coating process needs to keep up” he adds.
In line with market requirements: AM Coating available in two versions
AM Coating TWIN is specifically designed for series production. The system works with two lasers for front and rear coating and the brake disks are transferred automatically.
AM Coating SINGLE is the ideal choice if you would like to test materials and material combinations in parallel with or before series production, to develop the application process or to manufacture small series. Upon request, the team of experts at the CHIRON Group can provide support during process development, either at the customer premises or in Tuttlingen. “We could install a base machine here,” says Dr. Koscsák, outlining a potential scenario, “where the customer’s specialists can learn the process, run tests and set up the parameters with us ready for series production. Or, for a continuous and even more productive process, we can integrate a grinding machine and perfectly coordinate both systems.”
Top-quality, firmly bonded application
Of course, productivity is not enough on its own – the quality of the coatings needs to be right too. What about crack formation and durability? Project Manager Ernest Frombach says “We use high-speed laser material deposition to achieve improved adhesion through the firmly bonded connection. The layers are also thinner, down to tenths of a millimeter. This uses less material, and our powder management enables us to achieve a high degree of powder utilization. The powder and hard material layers are applied directly one after the other. By applying the first layer, the brake disk is tempered as it were, and we consistently achieve the best application quality for every brake disk without pores or cracks forming.”
More about the Chiron process at: https://chiron-group.com/expertises/additive-manufacturing
