FOOD CONTAINERS BY INJECTION MOULDING

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.

Have Query? Click Here to Chat
Industry Expert is Online, Chat with him for more detail.

Plastic containers are necessary to the packaging needs of many sectors. Food and beverage packaging makes efficient use of sorts of plastic containers, such as plastic containers for water and plastic jars for use as deli containers.

Plastic container companies have many techniques at their discretion. The most popular of the techniques are extrusion blow molding, injection blow molding, stretch blow molding, injection molding and co-extrusion. Each has its strengths. And knowing these can help when you are buying plastic container distributor. To select the right company.

Injection blow molding is completed in three stages. First, melted plastic is injected into a shape to produce a parison. Compressed-air then blows through a key pin to increase the form. Eventually, the container is transferred to a third stop for ejection.

Injection molding is used to produce wide mouth containers such as tubs, plastic containers and vials. Content is inserted in to a cavity where pressure causes the resin to comply with the mold.

Thin wall injection molding is a specialized form of conventional injection molding that focuses on mass-producing plastic parts that are thin and light so that material cost savings can be made and cycle times can be as short as possible. Shorter cycle times means higher productivity and lower costs per part.

The definition of thin wall is really about the size of the part compared to its wall thickness. For any particular plastic part, as the wall thickness reduces the harder it is to manufacture using the injection molding process. The size of a part puts a limit on how thin the wall thickness can be. For packaging containers thin wall means wall thicknesses that are less than 0.025 inch (0.62mm) with a flow length to wall thickness greater than 200.

INTRODUCTION
FOOD PACKAGING AND PACKAGE LABELING
ADVANTAGE AND APPLICATION OF PLASTIC PACKAGING
TYPES OF FOOD CONTAINER
MARKET SURVEY
EXPORT DATA OF PLASTIC FOOD CONTAINER
IMPORT DATA OF PLASTIC FOOD CONTAINER
OVERVIEW OF PLASTIC FOOD CONTAINER
GLOBAL MARKET POSITION OF FOOD CONTAINER
PRESENT MANUFACTURERS OF PLASTIC FOOD CONTAINERS
MOLDING METHODS FOR PLASTIC CONTAINER
B.I.S. SPECIFICATION
RAW MATERIALS USED FOR THE MANUFACTURE
OF INJECTION MOLDED COMPONENTS
MANUFACTURING PROCESS OF PLASTIC FOOD CONTAINER
PROCESS FLOW DIAGRAM
DETAILS OF THIN WALL MOLDING
DETAILS OF INJECTION MOULDING
TROUBLE SHOOTING FOR INJECTION
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

Category: Tag:

Additional information

Plant Capacity

14400.00 Nos./day

Land and Building

(800 Sq.Mt) : Rs. 87.00 Lacs

Plant & Machinery

Rs. 25.00 Lacs

working Capital for 2 Months

Rs. 26.77 Lacs

Total Capital Investment

Rs. 1.42 Cr

Rate of Return

34%

Break Even Point

54%