Forging Internship Project
Steel Plant Specialities LLP (SPS), Mumbai, is launching an innovative new industry-academia collaboration initiative to connect skilled students from leading institutes (NIFFT, Sant Longowal Institute, etc.) with forging organizations.
Attention Forging Organizations:
Join our industry-academia collaboration to access skilled interns who can tackle your operational challenges while gaining valuable industry experience. Here’s how:
1. Select 2-3 projects from the list in the form below that align with your operational needs
2. Complete the form with your organization details and selected projects
3. Submit a custom project if none of the listed options suit your requirements
4. Receive qualified interns from premier institutes to execute your chosen projects
FAQs
Leading institutions including NIFFT (National Institute of Foundry and Forge Technology), Sant Longowal Institute, and other reputed forging institutes.
None. Interns do not expect salary or payment. Companies only need to provide technical guidance and workspace access.
Interns will be supported by their professors, SPS consultants, and our network of experienced senior consultants and technology providers.
Projects are designed as short-term, target-based assignments suitable for internship duration.
You can describe your specific project requirements in the form, and we'll develop a workable short-term project to address your needs.
All interns are briefed on the importance of maintaining strict confidentiality regarding each organization's operations and proprietary information.
SPS will review your requirements and facilitate the intern placement process, matching qualified candidates with your selected projects.
We're Here to Help- Ask Us
If you have any questions please contact us we will answer your questions via email as quickly as possible.
Project Titles
Study the impact of surface contaminants (scale, rust, oil) on billet heating and die erosion; suggest cleaning techniques.
Compare billet core-to-surface temperature uniformity at different soak times and furnace patterns; propose optimized heating cycles.
Collect and analyze common forging defects and recommend corrective actions using root cause analysis.
Benchmark current die preheating methods and suggest improved techniques to reduce thermal shock.
Measure reduction in scaling and improved surface finish from anti-scale coatings; evaluate cost-benefit.
Assess performance, die temperature, finish, and environment impact of both lubricant types.
Measure load changes before and after modifying billet shape or die transitions.
Develop weight reduction strategies for parts with excess flash or over-forging.
Install sensors and log data to improve process control and avoid die cracking.
Analyze machining rejections; propose forging process improvements to reduce scrap.
Create a tracking system for die/punch life to assist predictive maintenance.
Audit furnaces for heat loss, insulation efficiency, and loading pattern improvement.
Correlate heat treatment cycles with part hardness and dimensional control.
Analyze flow stress of materials to aid forging load and process planning.
Run simulation software and compare with shop data to validate die design.
Measure pre- and post-machining dimensions and suggest die design changes.
Investigate failed tools and recommend improvements in design or heat treatment.
Study different cooling methods and their effect on microstructure and hardness.
Design a tracking system for parts using QR codes or RFID.
Identify and eliminate delays in forging operations through time-motion study.
Obtain and use new-generation billet coating for 2 or 3 die runs
Get correct temperature range for the grade and dimension. Check variation in formability with two different temperatures in that range.
Seek machining experts who can guide based on tools being used