SERVICES

Click card for a detailed explanation of the services below.

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CAD/CAM

CAD/CAM

CAD (Computer-Aided Design) and CAM (Computer-Aided Manufacturing) systems work together to streamline the design and manufacturing process.

CAD allows designers to create precise models, while CAM translates designs into machine-readable instructions. This integration enhances accuracy, reduces production time, and ensures consistency in manufacturing, especially for complex or high-volume parts.
CNC Milling

CNC Milling

CNC milling is a computer-controlled process used to cut and shape materials with high precision.

CNC milling involves rotating cutting tools that remove material from a workpiece to create complex parts with tight tolerances. It's widely used in industries like aerospace and automotive for both prototyping and mass production.
3D Milling

3D Milling

3D milling is an advanced CNC machining process that uses multi-axis movement to create complex components.

By operating along three or more axes, 3D milling allows the creation of intricate geometries such as curves and contours. It improves surface finishes and is ideal for industries like aerospace and medical devices.
CNC Turning

CNC Turning

CNC turning is a precision machining process used to create cylindrical or conical shapes.

In CNC turning, a workpiece rotates while a cutting tool remains stationary, allowing for precise shaping. This process is ideal for producing parts like shafts and bushings in industries such as automotive and manufacturing.
Threading

Threading

Thread cutting, tapping, and milling are methods used to create internal and external threads on components.

Thread cutting is ideal for larger workpieces, while thread tapping is used for smaller diameters. Thread milling on CNC machines allows complex and large-diameter threads for both internal and external surfaces.
Production

Production

Production involves using specialized equipment like CNC machines to manufacture precise components from raw materials.

Machine shops use processes like cutting, milling, and turning to shape parts according to engineering blueprints. Production can range from custom, one-off parts to high-volume runs with consistent quality.
Prototyping

Prototyping

Prototyping is the process of creating functional models to test designs before full-scale production.

Using CNC machines and other tools, prototypes can be quickly produced from materials like metals and plastics. This process allows engineers to evaluate designs and make adjustments before entering the mass production phase.
Small Fabrication

Small Fabrication

Small fabrication refers to creating custom components on a smaller scale, often involving cutting, bending, and welding.

It is used to create parts, structures, and prototypes for industries such as automotive and construction. Small fabrication projects often include items like brackets, enclosures, and smaller mechanical components.
Large Hole Drilling

Large Hole Drilling

Large hole drilling uses specialized equipment to drill through heavy, difficult-to-position workpieces.

A radial arm drill with an adjustable arm allows for precise hole placement without repositioning the workpiece. This method is ideal for large-scale projects in manufacturing and construction.
Boring

Boring

Boring is a machining process used to enlarge or refine existing holes for precise tolerances and finishes.

Boring improves hole accuracy and surface finish and is often employed in applications like engine components and cylindrical bores where high precision is required.
Assembly

Assembly

Assembly in a machine shop involves putting together precision-machined components to create functional products.

This process includes fastening, fitting, and securing parts using methods like bolting, welding, and bonding. Assembly is common in industries like automotive and aerospace.
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