• Gender: Male
• Age: 47
• Designation: Senior Executive
• Highest Education Level: Masters - Degree
• Current Gross Salary: INR  300000 /Annum
• Expected Gross Salary: INR  400000 /Annum
• Preferred Country: India
• Notice Period: 30  Days
• Preferred Location: Anywhere in India
• Work Experience: 19.7 Year(s)

Education

M.Tech., (Plastic Engineering), from CIPET, Lucknow (2004-2006)with honours(76%).

B.Tech. in Chemical Engineering, from Harcourt Butler Technological Institute, (HBTI) Kanpur (UP Technical University, Lucknow) in the year 2000 to 2004 with first class (61%),

10+2 from D.S.H.S. School, Morar, Gwalior (M.P.Board) with first class (63.7%) in 1997.
10th from G.M.M.H.S. School, Chhatarpur (M.P.Board) with first class (74.9%) in 1994.

Skill Sets

Research and development in Polymers, Plastics processing and testings, chemical processing.Quality Management system ISO 9001:2000 and TS16949:2002.
Computer Skills:
Operating System-Windows98, XP, MS-office. & Programming Languages- C & C++.

Polymer Compounding,
Plastics / Polymer characterisation (ASTM/ISO)
Plastics / Polymer Processing : Extrusion, Injection Moulding, Rotomoulding, Blowmoulding, Thermoforming.

Work Experience

Sr. Executive (R&D)
November, 2008
Company Profile: Leading manufacturer of polymeric compatibilisers, coupling agents, nylon alloys etc.
Responsibilities: Literature and patent search for the new developments, designing of experience, Planning and Conducting the experimental trials, testing of the R&D Samples, Product Up gradation and Cost minimization.

Sr. Executive (R&D)
From September 2006 to August 2008
APPL Industries LTD. IMT Manesar (Haryana) Gurgaon manufacturer of Polyolefins based compounds and Engineering plastics especially for automotive sectors.
Job Profile:
Literature and patent search, Preparation of technical reports for new development.
Pre-formulation studies, designing of experiments, planning and conducting manufacturing trials and testing of properties for new products.
Development and optimization of process and compositions.
Product up-gradation and cost minimization.
Application development and promotion of new products.
Technical Services: Attending customer complaints, visiting their sites to solve the problem related to processing and handling of material.

Achievements: Following compounds have been developed under my supervision.
PC/PBT Alloy equivalent to Xenoy 1731.
PC/ABS Alloy for automotive application.
PET/PBT blend, 15% glass filled equivalent to Celanex 5202 for electrical appliances.
PET/PBT blend, 30% glass filled for CFL light housing application.
PVC/ASA alloy, for hot water supply pipes application.
Heat resistant ABS equivalent to Absolac 120 HR (Lanxess).
High heat resistant ABS with V0 flammability.
Polycarbonate, 10% glass filled and V0 flammability with non halogenated FR.
UV stabilized polyacetal compounds for automotives application.
High Impact HIPS with V0 flammability for TV cabinet.
Nylon-6, 15% & 30% glass filled chemically coupled compounds.
High impact Nylon-6 compound with V0 flammability for corrugated small dia pipes for electrical cable cover.
10% & 35% wallastonite filled PP compound for AC-car
40% mica filled homopolymer base PP compound for AC-Car.
Very high impact, UV stabilized PP compound for Automotives.
PP/HDPE blend for ‘Bin for waste- storage’ application.
Impact Modified PA-6/ABS Alloy equivalent to BASF Terblend N NM-19 for Automotives.

M.Tech.Thesis Title: “Effect of compatibilizers on morphology, mechanical and thermal properties of PC/PBT blends.”

M.Tech.Thesis Supervisors: Dr. Vijay Kumar (Dy. Director, CIPET Lucknow) & Dr. Y.N. Sharma (Technical-Director, APPL Industries Ltd., IMT Manesar (Haryana.).

M.Tech.Thesis Abstract: Bis-phenol A polycarbonate (PC) and polybutylene terephthalate (PBT) are blended together at different percentage levels and compatibilized with three different reactive compatibilizers viz. ethylene-butylacrylate-glycidylmethacrylate (E-BA-GMA) terpolymer, ethylene-butylacrylate (E-BA) copolymer, and random copolymer of ethylene and glycidylmethacrylate (E-GMA)). These blends were injection moulded and required properties testing operations were performed.
The effects of compatibilizer addition on the morphology, mechanical and thermal properties of the PC/PBT blends were investigation. The properties test results of eight E-BA-GMA terpolymer compatibilized blends of PC/PBT showed that the moulding shrinkage increases with increasing the PBT content in the PC/PBT Blends.
The tensile and izod impact tests results revealed that on increasing the content of PC in PC/PBT blend led to almost linear increment in both yield strength and impact strength. The variations in elongation at break were not found uniform/linear. The flexural modulus and the heat deflection temperature (HDT) of these blends were not much influenced on small change in PBT content in PC/PBT blends. Both values decreased with larger increment in PBT content in the PC/PBT blends. The Melt flow Index decreased with increasing the PBT content in the PC/PBT Blends.
The comparisons of uncompatibilized PC/PBT Blend and compatibilized blends with three different compatibilizers were made. The melt flow rate decreased of compatibilized blends while the izod impact strength and HDT increased on compatibilization of PC/PBT blends.
The Melting Point by DSC test showed that there is not much effect of compatibilizers on melting point of PC/PBT blend. Scanning electron microscopic examination of these four blends showed that the PBT tends to disperse as larger domains in PC matrix of uncompatibilized PC/PBT blend. However, the size of the PBT domains in PC matrix reduce dramatically owing to the incorporation of all three compatibilizers separately but the ethylene terpolymer results the sm

Future Goals

I am looking for a suitable position in an organization and seeking quality-working environment where my knowledge can be shared and enriched. To use my skills in the best possible ways for the development, profitability and growth of the organization, I am working for.