스테인레스 스틸 부품의 CNC 터닝

스테인레스 스틸 부품의 CNC 가공, 산업에서 널리 사용되는 것, 공구 산업에 큰 도전을 제기합니다.. 새로운 터닝 인서트 소재 및 칩 브레이킹 형상을 개발할 때, 우리는 기계 가공성을 고려해야 합니다. 화학물질의 부식성 환경에서 긴 수명을 제공하는 스테인레스 스틸 소재 그룹, 음식, 제지 및 펄프 산업이 점점 더 많이 사용되고 있습니다.. 이러한 재료는 일반적으로 우수한 내식성을 제공하는 크롬 기반 철 또는 탄소강입니다.. 비중이 다른 크롬과 니켈을 함유한 다른 스테인리스강 재료 그룹은 높은 인장 강도와 내식성을 요구하는 항공우주 산업에 사용됩니다.. 가공 난이도가 중간 정도인 저니켈 합금부터 가공이 어려운 고온 합금까지 다양합니다..

정밀 스테인레스 스틸 부품의 CNC 터닝

Machining challenges
Although the machinability of stainless steel is very challenging, they are very sticky and produce sticky chips, built-up edge and coating particles caused by the cutting tool. There are even potential problems such as particle extraction at the junction of the coating and the substrate. 하지만, major turning tool companies consider these failure modes when designing the latest core carbide grades and chipbreakers. 요즘에는, economical solutions for mass production of stainless steels that are easy to turn to medium-difficulty processing range are easily available.

Reorganize cemented carbide materials according to toughness
Seco Tools is one of a complete series of cutting tool suppliers that design new core turning tool materials to improve performance in a wide range of stainless steel processing conditions and applications (including close to the final shape and stainless steel processing). In terms of cemented carbide, Seco has completely reorganized its core turning materials for general machining (TP200) and heavy roughing (TP300). It provides better adhesion between the substrate and the underlying coating and a cutting edge with better toughness. Both materials are coated with a composite coating composed of titanium carbonitride (TiCN), aluminum oxide (Al2O3) and titanium nitride (주석) on a substrate with a cobalt-rich zone.
According to Bob Goulding, Carboloy’s fixed product manager, the restructured material provides important properties for improving machined stainless steel materials. They consist of a very tough coating that can effectively resist pull-out and a smooth and hard top coating that can better resist sticking chips and built-up edge.

Seco Tools is one of a complete series of cutting tool suppliers that design new core turning tool materials to improve performance in a wide range of stainless steel processing conditions and applications (including close to the final shape and stainless steel processing). In terms of cemented carbide, Seco has completely reorganized its core turning materials for general machining (TP200) and heavy roughing (TP300). It provides better adhesion between the substrate and the underlying coating and a cutting edge with better toughness. Both materials are coated with a composite coating composed of titanium carbonitride (TiCN), aluminum oxide (Al2O3) and titanium nitride (주석) on a substrate with a cobalt-rich zone.

According to Bob Goulding, Carboloy’s fixed product manager, the restructured material provides important properties for improving machined stainless steel materials. They consist of a very tough coating that can effectively resist pull-out and a smooth and hard top coating that can better resist sticking chips and built-up edge.

Goulding said that through the coating deposition process-medium temperature chemical vapor deposition (coating at a lower temperature) to improve the toughness and smooth coating, resulting in a long life. He explained, ‘the medium temperature process retains all the hardness and wear resistance of the thicker CVD coating, and also gives you a tougher and smoother coating that minimizes cracks. ’

Design high-efficiency stainless steel turning tools

Although both general-purpose and heavy-roughed materials contain a matrix with good toughness and cobalt-rich regions, the ratio of matrix toughness and coating wear resistance is different. According to Goulding, the coating of TP200 material provides excellent wear resistance at higher cutting speeds, while the toughness of the substrate of TP300 material is better, which improves the ability to process high-strength stainless steel at lower speeds. ‘The toughness of our heavy roughing materials is particularly good, combined with the thick MTCVD coating, which makes your cutting edges hard and very tough,’ Goulding said. ‘You get effective wear resistance with outstanding resistance to cutting edge groove wear. Based on these characteristics, Goulding recommends the universal material TP200 for high-speed cutting of free-cutting ferritic stainless steel. The TP300 material is used for low-speed applications of high-strength stainless alloys with medium processing difficulties.

Design a machined stainless steel chipbreaker plan
According to Goulding, there will be models for the correct chipbreaker geometry for stainless steel machining, and Seco’s reorganized core ‘M3’ geometry is used for light to medium load cutting. It can be used for this groove shape for steel finishing and the reorganized core ‘MF2’ groove shape design. The width and angle of the negative chamfer can be varied to provide the cutting edge strength required for effective chip breaking in a wide range of applications including small depth of cut and high feed. The increased cutting edge strength at high feeds helps to control groove wear at the depth of cut when stainless steel is applied and close to the final shape.

According to Goulding, there will be models for the correct chipbreaker geometry for stainless steel machining, and Seco’s reorganized core ‘M3’ geometry is used for light to medium load cutting. It can be used for this groove shape for steel finishing and the reorganized core ‘MF2’ groove shape design. The width and angle of the negative chamfer can be varied to provide the cutting edge strength required for effective chip breaking in a wide range of applications including small depth of cut and high feed. The increased cutting edge strength at high feeds helps to control groove wear at the depth of cut when stainless steel is applied and close to the final shape.

In the entire range of applications, the new geometry design also provides better tool life. One contributing factor is the positive angle of entry, which promotes freer cutting and lower chip temperature. The other is the chip control angle. The strategically placed ‘bump’ on the tool tip replaces a hard chip breaker to control the chip curl required for chip breaking. The straight-pressed bulge helps to limit the contact between the chip and the blade to only two points: the cut-in angle and the bulge itself (cut-out angle). 결과적으로, the heat and cutting force transferred to the insert are reduced, thereby increasing tool life. The two contact points are also quite wide, so any diffused wear on the rake face caused by the chemical reaction of chips and cemented carbide will not grow up together, causing early failure of the front blade.

In the entire range of applications, the new geometry design also provides better tool life. One contributing factor is the positive angle of entry, which promotes freer cutting and lower chip temperature. The other is the chip control angle. The strategically placed ‘bump’ on the tool tip replaces a hard chip breaker to control the chip curl required for chip breaking. The straight-pressed bulge helps to limit the contact between the chip and the blade to only two points: the cut-in angle and the bulge itself (cut-out angle). 결과적으로, the heat and cutting force transferred to the insert are reduced, thereby increasing tool life. The two contact points are also quite wide, so any diffused wear on the rake face caused by the chemical reaction of chips and cemented carbide will not grow up together, causing early failure of the front blade.

Although the current core turning materials and chip breakers provide good performance for stainless steel processing in the medium processing difficulty range. 하지만, there are no successful cases regarding the extremely difficult to process stainless steel materials. ‘As the nickel/chromium content in stainless steel increases, you usually work at very low speeds,’ Goulding said. ‘You need a strong cutting edge to withstand the extreme pressure required to cut this material. If the cutting edge is too sharp, the blade will chip. ’

To meet these needs under current conditions, Seco provides a tough TP40 cutting material, a ‘MR7’ chipbreaker with high cutting edge strength, and a tough ‘R7’ single-sided geometry. 동시에, the company is studying a new material/chipbreaker combination that resists cracking and provides the required toughness and good wear resistance along the cutting edge in high-alloy stainless steel applications. “We are exploring the possibility of modifying our TP200 and TP300 materials and adding another chipbreaker to meet a wider range of stainless steel materials processing,” Goulding said.