DISCOVER MARSHALLS’ COMPREHENSIVE VIDEO LIBRARY, DEPICTING OUR DIVERSE & EXCEPTIONAL CAPABILITIES IN ACTION.
Take a closer look at Marshalls’ capabilities shown in HD.
Overview of Marshall Capabilities
CNC Swiss Machining, CNC Laser Tube Cutting, CNC Wire EDM, CNC 2D and 3D Wire & Tube Bending & CNC Laser Welding.
Our engineers utilize “SolidWorks” as their main 3D CAD system. CAD models assist in identifying potential cost savings.
Manual Tube & Wire Bending
Marshall began wire and tube bending for the medical industry using manual bending processes, and CNC Bending soon followed.
Benefits of CNC Swiss machining over conventional CNC Turning are minimized tool deflection and increased machining accuracy.
CNC Swiss Machining
Swiss machining is very stable, minimizing vibration and surface chatter, which delivers increased accuracy.
Extended Swiss Capabilities
Demonstrates Swiss Machining Processes of: drilling, milling, trepan, deburring, and secondary spindle reaming and threading.
CNC Laser Tube Cutting
CNC Laser Tube cutting enables Marshall to cut exacting features in small diameter tubes to very close tolerances.
Utilizes the part geometry defined by the CAD drawing, CAM allows engineers to simulate and refine the manufacturing process.
CNC Wire & Tube Bending
CNC 3D bending of wire and tubing produces cost savings, faster prototypes, faster production and consistent quality.
CNC Wire EDM
At Marshall CNC Wire EDM is used in production for generating slots, grooves, holes, cutoff and other features.
The CNC Vision System saves inspection time, is very accurate and reports part dimensions into a program for records.
Optical Measurement Systems
Optical Comparators magnify component features for inspection purposes. In many cases a comparator is used with a template.
The Coordinate Measuring Machine measures component features. It utilizes a probe to touch the part to record dimensions.
Visual inspect of parts is often necessary for consistency in appearance. Gauge inspection can also be a visual inspection method.