Cutting Tools For Wood, Metal and Plastic,
Composite Materials and Equipment for Special Processing.
Research and use of hard metals and steel allow new shapes cut, high quality, reliability and consistency in time.
Rinaldi supply in Italy and all over the world tools for working with wood, metal, plastic, composite materials and equipment for special processes.
Constant technological research and utilization of hard metal and steel of the new production generation, made according to the DIN/ISO 9000 standards, allow the application of new cutting geometries together with an excellent quality product, reliability and consistency over time.
RINALDI PROVIDES A CAREFUL TECHNICAL SUPPORT THANKS TO TESTED EXPERIENCE OF A VALID TEAM OF TECHNICIANS AND A FLEET OF LAST GENERATIONS MACHINES.
Rinaldi is able to produce big quantities or even a single special tool.
Thanks to the constant renewal of production and checking machineries is able to satisfy the customer’s request from projecting of the tool through CAD system to its realization by CNC Walter grinding machines of the latest generation.
Careful checks during the production, made also by Walter machines, allows to obtain excellent cutting geometries and very precise profiles ensuring for each tool the best possible performance.
At Rinaldi the quality of the tools we manufacture is the result of over 40 years experience, and our quality levels are ensured on a daily basis by our high precision Walter machines.
Precise checks during each processing phase ensure we always produce tools in conformity with the UNI EN ISO 9001 standards.
The tools we produce are used to manufacture highly complex parts at very high speeds, combined with the new generation, numerical control machines, that ensure very high accuracy rates.
Rinaldi manufactures tools capable of lasting much longer than normal quality tools, without breaking. These are characteristics that significantly reduce costs and increase productivity.
In order to ensure this level of performance, our tools respond to essential requirements including:
– high hardness, especially at high temperatures
– high strength, high resistance to impact and deformation under load
– high resistance to plastic deformation during machining operations
– high wear resistance
– high thermal conductivity and low friction coefficient that allows the dissipation of heat on the cutting surface
– high chemical inertia which reduces wear on tools.