· Maximum grinding accuracy
· Accuracy is exceptionally high due to the intelligent, rigid construction and the evenly distributed magnetic holding force over the total workholding face.
· The mono-block body, steel frame and top plate having micro-laminations assembled under high pressure, ensure a solid overall chuck assembly
· Top plate, frame and body tightly bonded both mechanically and magnetically
· Top plate fully supported by frame and body
· All steel construction ensuring excellent heat transfer properties eliminating deformation
· Actuating mechanism does not exert any forces to the top plate
· Uniform magnetic force distribution over the entire working area
· Maximum grinding efficiency
· High energy Neodymium magnets stand for reliable holding even of workpieces with an uneven surface or made of tool steel. The chuck can be fully loaded without the risk of smaller workpieces at the edges of the chuck being deprived from magnetic flux.
· Twin NEODYMIUM magnetic system generating a holding force of up to 100 N/cm2 which is at least 60% (!) higher than other micropitch chucks
· Holding force in loaded condition 80 to 90% higher compared to other makes
· Top plate with virtually 100% active surface without weak areas
· High holding force in the most used area (left end)
· Micro pole pitch allows good holding of very small components of 1.5 mm width/length and also accurately parallel grinding very thin, like 0.5 mm, components
· Long and trouble-free chuck life
· Long lasting high power by Neodymium magnets effectively protected against humidity. The moving parts being under low stress are hardly subject to wear.
· Top plate and body are perfectly sealed against water ingress
· Each chuck is tested on watertightness
· High quality tested, triple coated NEODYMIUM magnets
· Over engineered, smoothly operating actuating mechanism, tested 200,000 times under harsh conditions
· Enhanced safety
· No protruding elements and a generous amount of holding force enhance overall safety.
· Integrated side and end stops reduce injury hazards
· High magnetic energy for increased holding
· Force margin in difficult situations