CPGW-32.51-R Polycrystalline Diamond (PCD) Grade CTM302

The CPGW-32.51-R is a precision polycrystalline diamond (PCD) milling insert featuring CTM302 grade material. Engineered for superior performance in milling operations, this insert provides exceptional wear resistance and cutting efficiency for demanding machining applications.

Note: This is a Reconditioned insert. The PCD segment is new but the carbide body is not, saving us a few steps in the manufacturing process and passing the savings on to the customer. 

• Grade: CTM302 PCD
• Part Number: CPGW-32.51-R-CTM302
• 9.2 ( I.C.)
• 4mm (DOC) 
• .4mm  Corner Radius (R)  
  
• Optimized for non-ferrous materials

   Engineered for superior performance in Turning operations, this insert provides exceptional wear resistance and cutting efficiency for demanding machining applications.

  	ANSI	CPGW 32.51	ISO	CPGW09T302
  Shape	C	80° Diamond	C	80° Diamond
  Relief Angle	P	11°	P	11°
  Tolerance	G	.001"	G	.025mm
  Type	W	Screw on	W	Screw on
  Insert Size	3	.375" (I.C.) 3/8"	09	9mm Edge Length
  Thickness	2.5	.156"	T3	3.97 mm
  Corner Radius	1	.016"	04	0.4mm
  Wiper (BS)	None	Included Nose Angle	80°
  Tip Length	.197"			5mm
  Insert Hand	Neutral	Top Rake	0°
  PCD Grade	CTM302	Micron Range	2/30µm	Multi-Modal

  Using CTM302 grade PCD in turning operations offer benefits like superior wear resistance, high-strength edges, and thermal stability, making it ideal for abrasive materials like high-silicon aluminum alloys, MMC, and certain cast irons. Its multi-modal grain structure (2 µm to 30 µm) provides excellent abrasion resistance and edge quality, leading to faster speeds, better surface finish, and increased tool life in demanding applications. 

   

  · Excellent edge strength and quality: The combination of different grain sizes creates a strong, high-quality cutting edge that maintains its sharpness, leading to more precise cuts.

  · Improved surface finish: The sharp and stable cutting edge reduces friction and provides a cleaner cut, which can minimize the need for secondary finishing operations.

  · Increased productivity: The tool's durability and sharpness enable faster machining speeds and higher production rates, as it can withstand the demands of continuous turning operations.

  · Good thermal stability: CTM302 has strong thermal stability, which is crucial for maintaining performance and tool integrity at high operating temperatures during the machining process.