Facilities
Sparton Resin Transfer Molding (RTM) system
The acquisition of the Sparton Resin Transfer Molding (RTM) system under UGC-PURSE signifies a leap in research and innovation. This cutting-edge technology offers precision and versatility in producing complex composite materials. Integrated into our curriculum, it fosters hands-on learning and interdisciplinary collaboration. This investment embodies our commitment to staying at the forefront of manufacturing, empowering future engineers and researchers to drive progress in academia and industry.
OMAX Abrasive Water Jet Cutting Machine
The procurement of the OMAX Abrasive Water Jet cutting Machine through BRNS funding heralds a new era of precision machining and fabrication. This state-of-the-art equipment enables intricate cutting of various materials with exceptional accuracy and efficiency. Its integration into our research facilities amplifies capabilities in diverse fields, from aerospace to biomedical engineering. This investment underscores our dedication to advancing scientific frontiers and nurturing innovation.
PVD Coating System
The acquisition of the PVD Coating Unit through DST-FIST project marks a significant stride in materials science and surface engineering. This advanced technology offers precise deposition of thin films, enhancing material properties for diverse applications. Sponsored by DST-FIST, this unit enriches research infrastructure, fostering interdisciplinary collaborations and innovation. It empowers scientists and engineers to explore novel materials and technologies, driving advancements in fields such as electronics, optics, and renewable energy. This investment reflects our commitment to scientific excellence and technological progress.
DMG MORI 5 Axis Machining Centre
The addition of the DMG MORI 5 Axis Machining Centre, sponsored by DST-FIST, revolutionizes precision manufacturing. This cutting-edge equipment enables intricate machining of complex components with unparalleled accuracy and efficiency. Its integration amplifies research capabilities, fostering interdisciplinary collaborations and innovation across industries. From aerospace to biomedical engineering, this investment empowers researchers to push the boundaries of possibility, driving advancements in technology and science. It embodies our commitment to excellence and propels us towards a future of limitless possibilities.
Taylor-Hobson Non-Contact Surface Roughness Tester
The acquisition of the Taylor-Hobson Non-Contact Surface Roughness Tester, sponsored by DST-FIST, revolutionizes surface metrology. This cutting-edge equipment allows precise measurement of surface roughness without physical contact, enhancing accuracy and efficiency. Integrated into our research facilities, it enables comprehensive analysis of surfaces across various materials and industries. Sponsored by DST-FIST, this investment amplifies our capabilities in materials science, engineering, and manufacturing, fostering innovation and excellence. It reflects our commitment to advancing scientific frontiers and propelling progress in academia and industry.
Polymer Powder Based Rapid Manufacturing System
The adoption of Polymer Powder-based Selective Laser Sintering (SLS) for rapid manufacturing, supported by UGC-UPE, signifies a paradigm shift in additive manufacturing. This cutting-edge technology enables the creation of intricate, high-quality polymer parts with exceptional precision and speed. Sponsored by UGC-UPE, its integration empowers researchers and students to explore novel applications across various industries, from automotive to healthcare. This investment propels us towards a future where innovation knows no bounds, driving progress and prosperity for generations to come.
ECO Cut Wire EDM Machine
Wire EDM technology offers exceptional learning opportunities for students in engineering and manufacturing fields. Through hands-on experience, they grasp fundamental principles of material removal, precision engineering, and CAD/CAM integration. Engaging in research projects, students explore innovative applications in aerospace, medical device manufacturing, and micro-machining, setting a robust foundation for their future careers in manufacturing.
Jobber XL Turning Centre
The Jobber XL turning Centre is an ideal platform for both undergraduate (UG) and postgraduate (PG) students to explore advanced machining techniques. UG students gain hands-on experience, diving into turning operations, tooling selection, and workpiece fixturing. Through practical exercises, they develop skills in machining precision components and understanding machining parameters.For PG students, the Jobber XL enables in-depth research. They explore process optimization, toolpath generation, and multi-axis machining.
CAE and Analysis Lab
The CAE and Analysis (Computer-Aided Engineering) Lab is a vital resource for both undergraduate (UG) and postgraduate (PG) students. UG students use industry-standard software for hands-on learning, while PG students conduct advanced research in areas like finite element analysis and computational fluid dynamics. With cutting-edge tools and resources, students develop essential skills and drive innovation across various engineering disciplines.
Composite Materials Development Laboratory
The Composite Materials Development Laboratory serves as a hub for both undergraduate (UG) and postgraduate (PG) students to delve into the world of advanced materials. UG students gain practical experience in composite fabrication techniques and material testing, laying a strong foundation in this field. PG students conduct cutting-edge research, exploring areas such as nanocomposites and bio-inspired materials. This facility fosters innovation and equips students with skills for diverse careers in materials science and engineering.
Hall of Guiness 68
Hall of Guiness 68 is a versatile venue accommodating up to 80 guests, perfect for diverse events. Complete with an LCD projector and remote conference capabilities, it facilitates seamless presentations and virtual meetings. The air-conditioned environment ensures comfort during gatherings. Whether hosting lectures, workshops, or conferences, Hall of Guiness 68 provides a technologically equipped and comfortable space for successful events.
Nano Materials Engineering Laboratory
The Nano Materials Engineering Laboratory is a hub for undergraduate (UG) and postgraduate (PG) students to explore cutting-edge materials at the nanoscale. UG students gain hands-on experience with state-of-the-art equipment, learning fabrication and characterization techniques. PG students delve into advanced research, exploring nanomaterial synthesis, properties, and applications. This facility fosters innovation and equips students for impactful careers in nanotechnology and materials engineering.
CAM (Computer-Aided Manufacturing) Laboratory
The CAM (Computer-Aided Manufacturing) Laboratory is a vital resource for both undergraduate (UG) and postgraduate (PG) students. UG students utilize industry-standard software to learn machining techniques and process optimization. PG students engage in advanced research, exploring CAM strategies for complex machining operations and robotic automation. This facility fosters innovation and prepares students for impactful careers in manufacturing and engineering.
Metrology Laboratory
The Metrology Laboratory is essential for undergraduate (UG) and postgraduate (PG) students, providing hands-on experience with precision measurement instruments. UG students learn fundamental metrology principles and techniques for quality control. PG students conduct advanced research, exploring new measurement methods and instrumentation for industries like aerospace and healthcare. This facility fosters innovation and equips students with skills for diverse careers in engineering and technology.
Precision Engineering Laboratory
The Precision Engineering Laboratory is a cornerstone for undergraduate (UG) and postgraduate (PG) students alike. UG students gain hands-on experience with state-of-the-art equipment, mastering precision machining techniques and measurement methodologies. PG students delve into advanced research projects, exploring nanotechnology, metrology, and microfabrication. This facility provides a fertile ground for innovation and prepares students for impactful careers in engineering and technology.
The Additive Manufacturing Laboratory
The Additive Manufacturing Laboratory is a hub for undergraduate (UG) and postgraduate (PG) students to explore the forefront of manufacturing technology. UG students gain hands-on experience with 3D printing processes, learning design principles, and material properties. PG students conduct advanced research, exploring additive manufacturing techniques for complex structures and functional materials. This facility fosters innovation and equips students with skills for diverse careers in engineering and manufacturing. is a hub for undergraduate (UG) and postgraduate (PG) students to explore the forefront of manufacturing technology. UG students gain hands-on experience with 3D printing processes, learning design principles and material properties. PG students conduct advanced research, exploring additive manufacturing techniques for complex structures and functional materials. This facility fosters innovation and equips students with skills for diverse careers in engineering and manufacturing.