Innovation of coating technology--coating Al2O3 coating by PVD process

Since the EMO exhibition in 2005 announced a breakthrough in the coating of Al 2 O 3 coatings using PVD, the Dutch company Hauzer has cooperated with the world's major tool manufacturers in the performance testing of the coating. The test results confirm the coating results previously published in the journal: Al2O3 coatings coated with PVD have excellent adhesion, stable chemical properties, excellent oxidation resistance at temperatures up to 1100 ° C, good resistance The crater wear capacity and high toughness.

Process description

This new coating system uses a hybrid coating technique to achieve deposition of the coating. This technology combines cathodic arc evaporation with tube magnetron sputtering in the same process. The arc-deposited TiAlN coating acts as a tie layer in the coating system and/or provides the required abrasion resistance to the coating system; the Al 2 O 3 coating provides high temperature stability to the system and Chemical stability.

In a typical hybrid coating system, several arc and magnetron tube sputtering cathodes were installed. Prior to deposition, the workpiece is heated to operating temperature and the system pressure is reduced to base pressure. After the workpiece is subjected to argon plasma cleaning or metal ion etching treatment, a plasma arc deposition coating is performed, and Al 2 O 3 is sputter deposited on the coating by a PVD method through a metal target placed in an argon-oxygen mixed gas. coating. In addition, the Al 2 O 3 coating can also be applied as a separate coating to some special processing applications without the need for a base layer. The Al 2 O 3 coating was deposited using Hauzer's T-mode deposition technique. The T-mode technology features a unique sputter cathode design combined with an optimized gas distribution system. The enclosed magnetic field generated by the electromagnetic coil around the substrate provides for high ionization of the plasma - which is necessary to achieve the desired coating properties. The advantage of this new technology is that the process is easy to control and the deposition process is highly stable and reproducible. In addition, its deposition rate (≥0.5 microns / hour) can fully meet the process cycle requirements of industrial economic production.

Coating application

Al 2 O 3 coatings are widely used in cemented carbide inserts, and their advantages, such as excellent resistance to crater wear and thermal cracking resistance, are well known. An Al 2 O 3 coating is typically deposited on the cemented carbide insert using a CVD process. Due to the higher deposition temperature of the CVD process, the carbides in the cemented carbide become brittle, which limits the application of the insert in metal cutting (mainly milling). In processing applications where the toughness of the cutting edge is critical, this new PVDAl 2 O 3 coating process offers users new processing possibilities at lower deposition temperatures. Especially when milling stainless steel or difficult-to-machine materials, the performance of the new Al 2 O 3 coating system can be doubled compared to conventional PVD coatings.

Processing field test results

The earliest cutting test results were published in the HauzerForYou10 magazine, when PerformaAlOx-H debuted at the EMO2005 exhibition. Then work with other major tool manufacturers to complete more testing. The test results and coating photographs of the X5CrNi1810 and 42CrMo4V workpiece materials processed by Al2O3 coated tools are described below.

Test 1: Workpiece material: X5CrNi1810; Tool: Carbide coated blade; Cutting parameters: vc = 251.32 m / min, f = 0.15 mm, ap = 2.5 mm, ae = 24 mm; Cutting length: 600 mm.

Comparing the life of the PVD coated insert PerformaAlox-H with conventional coated inserts, the life of the PVD coated insert PerformaAlox-H is doubled.

Test 2: Workpiece material: 42CrMo4V (DIN1.7225); Tool: Carbide coated blade; Cutting parameters: vc = 200 m / min, f = 0.25 mm, ap = 2.5 mm, ae = 20 mm.

Comparing the average wear of the blade flank by the PVD coated blade PerformaAlox-H and the conventional coated insert for 42CrMo4V workpiece, the flank wear of the PVD coated insert PerformaAlox-H is more conventional than when the milling length is 4000 mm. The coated blades are significantly reduced.

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