MAX-TEK STC-200

Model
STC-200
Brand
Control
  • Specs
    Convert Specs to Metric
    Chuck Size
    6"
    # Axis
    3
    Power
    10 hp
    Max RPM
    6,000 RPM
    Swing
    12"
    Control
    CNC
  • Product Overview

    The STC-200 is ideal for machining aerospace and power generation variable vane journals and automotive shaft journals

    The three axes (X/Z/C) STC-200 utilizes a substantial high tensile Meehanite base to provide superior rigidity and vibration dampening for efficient high speed superabrasive machining. The STC-200 has been designed for operator and maintenance efficiency.

    The linear guideways have no contact with grinding swarf which drops to the bottom of the machine for transfer to the sump. The grinding wheel is easily accessible enabling safe, simple wheel changes and the spindle belt can be changed from a convenient access panel on the side of the machine. The STC-200 is an efficient 99 sq. ft. footprint yielding tremendous productivity per square foot of floor space.

    Using a standard 50 HP, 12,000 RPM belt driven grinding spindle and a 10" hydraulic three jaw chuck with a 3,500 RPM, 11HP work spindle motor, the STC-200 is capable of heavy material removal. X-axis feedback is provided by a Heidenhain scale and a Fanuc based touch screen operator panel with over-ride switches is standard.

  • About Company

    max-tek, llc designs and sells superabrasive machining systems specifically suited for a variety of customer applications for the aerospace, power generation, automotive, compressor and medical industries. we have developed several innovative cost competitive machine designs that are a culmination of over 25 years experience in the design and construction of superabrasive machinery. the max-tek, llc machines are built to the highest industry standards with many new features not found on competitive machines in the marketplace today. satisfying an industry-wide need for a more competitive series of superabrasive machines introducing new superabrasive machining systems designed for higher production rates. reducing the overall cost of superabrasive machining. providing machines that are both user and maintenance friendly.