Study of applicability of different grades AI Alloy for defence products

Application feasibility of Ultra high strength steel, Micro alloy steels developed by MS for Ordnance Factory products and anticipated benefits

To carry out FEM analysis for finding out stress distribution in 5.56 mm Rifle and .315 mm Rifle.

Feasibility study of automation in 51 mm & 81 mm primary cartridge production.

Latest trends in Explosive disposal technology after expiry of life.

Study of latest technology for development of Avalanche survival gear for High Altitude Area.

Study of latest technology for development of Boot Anti Mine Engineer (BAME)

Study of latest technique of guidance in defence products.

Development of 5.56 mm Brass Cup

To minimize the rejection of 23 mm schillka cartridge case

To reduce process waste in computerized Jersey Shop

To study and reduce the RFR of SD Parachute

To reduce the RFR of optical lens in CNC machines

To study and reduce the rejection in 5.56 INSAS rifle (1B-1) due to dimensional variation and cut-pit in barrel bore

To Study and minimize the rejection of RL Venturi

To reduce the rejection and RFR of transmission components of Stallion and LPTA vehicles

To reduce the time taken between receipt of requisition and placement of purchase order

To study and reduce the RFR of SD Parachute

To reduce the rejection of 1000 lb bomb

To study and control the high percentage of hydrogen entrapment in steel.

To improve the productivity of propellant M4A2 for 155 mm ammunition.

To reduce the rejection and RFR in 7.62 mm Gun machine.

To reduce the RFR in ammunition box production

To study and reduce the rejection in fuze FB40

To study and reduce the rejection in shell forge line

To reduce time taken between machine output & final dispatch

To reduce the rejection and RFR of NG coating

To reduce the rejection of 81mm PWP

Reduction in RFR of BMP vehicle/p>

To reduce inspection time of 5.56 mm rounds in Proof Range

Reduction of RFR in Gun Barrel Production.

To study and reduce the inspection time of incoming material at

Reduction of Time Cycle' in procurement

To reduce RFR in Ammunition Box HSA

To reduce the numbers of MIS pending more than 15 days from 300 nos. to zero.

To reduce the time taken for assembly Of Turret from 90 to 65 days.

To reduce the time of MIS clearance from 30 days to IS days.

To reduce In-house testing time for basic materials at testing

Laboratory from 30 days to 20 days.

To reduce the rejection in 120 mm Aerial Bomb Head casting from 10% to 5%.

To reduce time taken for clearing cash purchase bills by PV & Bill group from 90 days to 30 days.

To reduce RFR %age of cord det"A" from 12% to 3%.

Cycle time reduction in testing incoming basic raw materials from 35 days to 24 days.

To reduce visual defects in final stage of Boot High Ankle DVS from 20% to 2%.

Reduction in RFR percentage of revolver (0.32" Mark-III) from 10 % to 5%.

To reduce RFR in the heat-treatment operations to engine components from 20S6to 109.

Effect of sub-contractor relationship ‘closeness‘ on MES integration requirements for shop floor visibility in distributed manufacturing along with Prof S Kumar, funded by SAP