The project report includes Present Market Position and Expected Future Demand, Market Size, Statistics, Trends, SWOT Analysis and Forecasts. Report provides a comprehensive analysis from industry covering detailed reporting and evaluates the position of the industry by providing insights to the SWOT analysis of the industry.
We can prepare PROJECT REPORT as per your INVESTMENT PLAN for BANK LOAN REQUIREMENT and INDUSTRY ANALYSIS. All reports are prepared by highly qualified consultants and verified by a panel of experts.
Silicones are synthetic polymers having an inorganic skeleton of alternate silicone and oxygen atoms, the silicone valences not taken up by oxygen being saturated with organic grpoupe and other groups. They occupy an intermediate position between inorganic and organic compounds. Because of this dual nature they have many properties which have made them very useful in many applications. Silicones are produced in several forms including fluids, rubbers and resins. Silicones emulsions are formed from silicone fluids and water with the help of a suitable emulsifier, and find various applications.
The term silicone denotes a polymer with the structural formula (RnSiO(4-n)1/2)m where n is between 0 and 3 and m is 2 or more. It contains a repeating silicone oxygen chain having organic groups R, attached to a significant portion of the silicone atom by silicone carbon bonds. In commercial silicones most of the R groups are methyl, longer alkyl, fluoroalky, phenyl, vinyl and a few others. Silicone fluids the Si-O chain is unbanked.
Silicone fluids are generally, dimethyl polysiloxane, methyl hydrogen polysiloxane or silicones consisting of copolymers of dimethyl siloxane with methyl phenyl, methyl-hydrogen, diphenyl, methyl-alkyl and other siloxanes. Linear poly-dimethyl siloxanes or dimethyl polysiloxanes are the most important of all the silicones. These fluids with hexamethyl disiloxane. For relating low viscosity fluids are manufacured by reacting dimethyl silicone fluids the process is run for several hours at 180oC in glass lined kettles with acid chloride catalysts or at lower temperature with sulphuric acid. Alkaline catalysts are used for the production of high viscosity fluids or gums. Silicone fluids have m.wt. of 2000 to 15000 and viscosities from 10 to 10,000 cps.
Dimethyl silicone fluids are colourless, odorless and nontoxic and are resistant to oxidation and chemicals. They have good lubricating action. They reduce surface tension and have water repellent properties, together with foam inhibition. Inclusion of phenyl groups into the silicone structure increase their thermal and oxidative stability, while lowering the pour point. Thus methyl phenyl silicone fluids have higher viscosity, temperature coefficient and lower pour point and lower flash points than dimethyl silicone fluids of the same viscosity. Fluids with chlorinated phenyl groups attached to silicone, e.g. methyl alkyl fluids where alkyl is octyl to tetradecyl are good lubricants but have higher viscosity temperature coefficients and poorer oxidative stability than methyl fluids.
In general, the dimethyl silicone fluids are soluble in aliphatic and aromatic hydrocarbons and chlorinated hydrocarbons. Lower m. wt. fluids are more soluble than higher fluids. They are insoluble in methanol, ethanol, acetone, ethylene, gylcol, polyglycol ethers, gylcerol cyclohexanol and water. Methyl-phenyl silicones are more soluble than the corresponding dimethyl silicones.
INTRODUCTION
PROPERTIES
SILICONE FLUIDS AND SILICONE EMULSION
TYPES OF SILICONE FLUIDS
USES AND APPLICATIONS
B. I. S. SPECIFICATION
TYPES OF SILICONE EMULSION
DETAILS OF SILICONE FLUIDS
MARKET SURVEY
INSTALLED CAPACITY, PRODUCTION AND CAPACITY UTILIZATION
OF SILICONE EMULSION
APPARENT CONSUMPTION OF SILICONE EMULSION
ESTIMATED DEMAND
PRESENT MANUFACTURERS/SUPPLIERS OF SILICON EMULSIONS
FORMULATING, HANDLING & USE, FOR SILICONE EMULSION
RAW MATERIALS
FORMULATION OF SILICONE EMULSIONUSING DC-203 SILICONE FLUID
FORMULATION OF SILICONE EMULSION
OTHER FORMULATION OF SILICONE EMULSIONS
FORMULATION OF SILICONE EMULSION(MOULD RELEASE AGENT)
PROCESS FLOW DIAGRAM
PROCESS IN DETAILS
RAW MATERIAL CALCULATION
PACKAGING HANDLING AND REMOVAL METHOD OF SILICONE EMULSION
MATERIAL SAFETY DATA SHEET FOR SILICONE EMULSION
ANALYSIS OF SILICONES
PLANT LAYOUT
PRINCIPLES OF PLANT LAYOUT
PLANT LOCATION FACTORS
EXPLANATION OF TERMS USED IN THE PROJECT REPORT
PROJECT IMPLEMENTATION SCHEDULES
SUPPLIERS OF RAW MATERIALS
SUPPLIERS OF PLANT AND MACHINERY
APPENDIX – A :
1. COST OF PLANT ECONOMICS
2. LAND & BUILDING
3. PLANT AND MACHINERY
4. FIXED CAPITAL INVESTMENT
5. RAW MATERIAL
6. SALARY AND WAGES
7. UTILITIES AND OVERHEADS
8. TOTAL WORKING CAPITAL
9. COST OF PRODUCTION
10. PROFITABILITY ANALYSIS
11. BREAK EVEN POINT
12. RESOURCES OF FINANCE
13. INTEREST CHART
14. DEPRECIATION CHART
15. CASH FLOW STATEMENT
16. PROJECTED BALANCE SHEET
| Plant Capacity | 500.00 KGS/day |
|---|---|
| Land & Building | (400 Sq.Mtr) Rs. 44.00 Lacs |
| Plant and Machineries | Rs. 5.00 Lacs |
| Working Capital for 2 Months | Rs. 38.33 Lacs |
| Total Capital Investment | Rs. 88.53 Lacs |
| Rate of Return | 36% |
| Break Even Point | 47% |
