Mold Designing & Tooling Service
Leading Mold Manufacturing Company in Delhi
Specializing in Precision Tooling & High-Quality Plastic Injection Molds for Every Industry
Mold Manufacturing & Tooling for Plastic Injection – Built to Perform
At Krishna Enterprises, we manufacture high-precision plastic injection molds engineered for durability, repeatability, and high-volume efficiency. From simple single-cavity tools to complex multi-cavity molds, our in-house tooling capabilities deliver consistency and performance in every shot.
Backed by advanced CNC machines, EDMs, and mold-fitting setups, we ensure every mold meets exact specifications with minimal tolerance.
Whether you’re launching a new plastic product or improving an existing mold, we ensure rapid development, optimized design, and production-ready results — right from day one.
What We Offer
Custom Mold Design
We turn your product vision into manufacturable tooling with full CAD/CAM support and mold flow analysis.
Multi-Cavity Mold Manufacturing
Optimized tooling for high-volume output — ensuring part consistency, cycle time reduction, and efficiency.
High-Durability Tool Steel
We use hardened tool steels to increase mold lifespan and minimize long-term maintenance costs.
Advanced CNC & EDM Machining
State-of-the-art CNC and EDM equipment ensures unmatched precision in every mold component.
Mold Modifications & Maintenance
We offer rework, repair, and performance enhancements to existing molds for improved functionality.
Prototype Tooling
Rapid tooling for test runs, sample validation, and pre-production before full mold development.
Our Mold Tooling & Manufacturing Process
Project Briefing & Part Design Analysis
We start by understanding your product design, function, and application to ensure mold feasibility and manufacturability.
Mold Flow & DFM Analysis
Simulations and design-for-manufacturing checks to identify issues early and optimize part flow, ejection, and cooling.
Tool Design (2D/3D CAD)
Detailed CAD drawings and 3D modeling of the mold base, cores, cavities, gates, and runners — tailored to your production specs.
In-House CNC & EDM Tooling
Precision mold tooling using high-end CNC and EDM machines. We work with hardened tool steels to ensure long-term durability.
Trial Runs & Adjustments
Initial mold testing with sample shots. We fine-tune parameters like fill rate, ejection, and flash to achieve zero-defect output.
Final Dispatch with QA Reports
After successful validation, the mold is cleaned, packed, and shipped along with complete QA documentation and performance report.
Let’s Build Your Mold, Your Way.
From concept to cavity — our mold experts deliver reliable, production-ready solutions with precision, speed, and service. Ready to talk?
Frequently Asked Questions
Mold manufacturing involves designing and fabricating custom tools (molds) used to produce plastic parts through the injection molding process. Precision-built molds ensure consistency, durability, and efficiency in mass production.
Typically, mold development takes 3 to 6 weeks, depending on the part complexity, mold size, number of cavities, and type of tooling (prototype vs. production).
Yes. Krishna Enterprises serves clients across Delhi NCR, including Noida, Faridabad, and Gurugram — offering complete in-house mold tooling and manufacturing solutions.
We use high-grade materials like P20, H13, stainless steel, and hardened tool steels, depending on the application's requirements for strength, durability, and temperature resistance.
Absolutely. We specialize in multi-cavity, family molds, and high-precision tooling designed for complex geometries and high-volume production needs.
Yes. We provide complete support including mold repairs, refurbishing, maintenance, and design alterations to improve performance or adapt to new product versions.
We cater to industries such as defense, automotive, electronics, FMCG, medical, and consumer goods, offering robust, high-performance molds for diverse applications.
Yes. Share your concept, rough drawings, or product goals — our team can assist with 3D designing, prototyping, and DFM (Design for Manufacturability) to guide you to production-ready tooling.