Index - Ambika Engineering.

Building Trust With Every Pattern.

"Ambika Engineering Works is one of the best foundry service providers in Kerala and Tamilnadu. For the past 5 years, we have been placing regular orders from them. Additionally, they can handle any type of complicated patterns and moulds. They provide high quality products and always keep their delivery timelines."

"Ambika Engineering Works has been at the forefront of mold design and engineering since 2015. Our team of skilled engineers leverages advanced technology to create high-quality molds that meet the highest standards of precision and performance".

Get a quote

We're committed to providing exceptional customer service. Get a quote today and experience the difference.

Your quote request has been sent successfully. Thank you!

Our Machines & Working Area

"The Backbone of Superior Mould Design"

Air Compressor

An air compressor is a machine that converts power from an electric motor, diesel, or gasoline engine into potential energy stored in compressed air. It operates by forcing air into a storage tank, increasing its pressure.

Planer Machine

A planer smooths and levels wooden surfaces by shaving thin layers, producing a uniform and polished finish.

Drill Machine

A drill machine creates holes or drives screws into various materials, making it essential for construction and DIY tasks.

Blade Grinding Machine

Blade grinders sharpen or shape cutting tools, ensuring optimal performance for blades and saws.

CNC

CNC machines automate cutting, milling, and shaping processes with high precision, guided by computer programs.

Disc Sander

Disk sanders smooth and shape surfaces with precision, ideal for woodworking and metalworking.

Hydraulic Stacker

This is a manual hydraulic stacker used for lifting and transporting heavy loads in warehouses and factories. It operates using a hydraulic mechanism, allowing controlled lifting and lowering of goods.

Design Rutter

A rutter machine is a compact navigational device designed to assist sailors by recording and replaying courses. It uses minimal mechanical components for reliability and ease of maintenance.

Design Requirements Analysis

  • Identify product specifications and material requirements.
  • Define dimensional accuracy and tolerances.
  • Evaluate production volume and cost constraints.

Design

Developing an efficient and precise mold design to meet production requirements.

  • Identify the appropriate type of iron and other materials based on the product's specifications.
  • Create detailed 3D models and technical drawings of the mold.
  • Develop prototypes to test the mold's performance and ensure quality standards.

Cutting

  • Assess the type and thickness of the iron mold to determine the appropriate cutting method.
  • Choose cutting tools such as plasma cutters, laser cutters, or CNC machines based on precision requirements.
  • Implement safety protocols, including the use of personal protective equipment (PPE) and adherence to operational guidelines.

Sanding

The process of sanding iron molds is essential for achieving a smooth, defect-free surface, ensuring optimal performance and durability in casting applications.

  • Assess the mold for surface defects and remove loose debris or contaminants before starting the sanding process.
  • The sanding process using appropriate tools and techniques to achieve the desired finish.
  • Evaluate the sanded mold to ensure it meets quality standards and is ready for use.

Fitting

  • Assess the mold for defects and ensure all parts are cleaned and ready for fitting.
  • Align the mold components accurately to avoid discrepancies during operation.
  • Conduct trial runs to confirm proper fitting and make necessary adjustments.

CNC

Efficient planning is essential for precise and high-quality iron mold production using CNC machining.

  • Develop accurate CNC programs using CAD/CAM software for the mold design.
  • Perform any required secondary processes like polishing or heat treatment.
  • Conduct a final quality check to confirm the mold meets design specifications.

Checking

  • Examine the mold for surface defects, cracks, or irregularities that might affect casting quality.
  • Measure and compare mold dimensions against design specifications using precision tools.
  • Check for proper fit, alignment, and operational functionality of the mold components.

Dispatch

  • Ensure all molds meet the required specifications and quality standards before dispatch.
  • Properly package molds to prevent damage during transit and label them clearly for easy identification.
  • Arrange timely and secure transportation, ensuring delivery schedules align with customer requirements.