Detailed Project Report on nitrile (nbr) gloves manufacturing unit

Detailed Project Report on nitrile (nbr) gloves manufacturing unit

NITRILE (NBR) GLOVES MANUFACTURING UNIT

[CODE NO.4104] 

Gloves are single-use items and should not be washed or reused. Polythene: Thin and have a tendency to tear. They are not an appropriate choice for healthcare settings. Vinyl: Have been shown to be less effective than latex gloves in providing an impermeable barrier against microorganisms.

Disposable medical gloves are available in nitrile, latex and vinyl materials. Any gloves worn by health professionals should be free of powder, sterile, textured and coated for extra protection. Nitrile tends to be the most favored glove material for those working in the healthcare industry.

A disposable glove is commonly made from natural or synthetic rubber that covers the whole hand and is used to protect the wearer against harmful environmental influences and/ or used by caregivers in health care to protect themselves and patients from infections. As the name implies, disposable gloves are designed for single use only and should be disposed immediately after use.

Hand Protection- one of PPE’S

Appropriate selection of gloves is essential to protecting hands. Chemically protective gloves are one of the most important tools to minimize dermal exposures to chemicals in research laboratories. Gloves should only be used under the specific conditions for which they are designed, as no glove is impervious to all chemicals.

It is also important to note that gloves degrade over time, so they should be replaced as necessary to ensure adequate protection. Laboratory personnel should use the information below, and manufacturer compatibility charts (found under useful resources in the above right menu), to choose the type and style of glove.

Choice of gloves 

Because the fundamental function of gloves is to protect both the wearer and the patient against the transmission of infectious microorganisms, the most important criterion for selection of gloves for safe use should be barrier performance. With the onset of latex protein allergy affecting certain genetically predisposed individuals, the risk of sensitization and allergy-triggering reactions in these already allergic users should also be considered.

Properly manufactured NR latex gloves are known for their excellent barrier property, high strength, good elasticity, tactile sensitivity, comfort, fit, and durability. This is particularly so with powdered gloves. Over the years, manufacturers of synthetic gloves have attempted to simulate these NR properties. It is not unreasonable to say that today, these properties are still unsurpassed (in full) by any of the synthetic gloves currently manufactured.

Natural rubber latex is the oldest and most familiar material used in disposable gloves. In recent years it has increasingly been supplanted by nitrile and to a lesser extent vinyl gloves, but it remains popular in many uses, especially medical applications.

Natural rubber latex is obtained from the Hevea Brasiliensis tree when it’s bark is tapped. It is a milky fluid comprising 30-40% of rubber hydrocarbon particles suspended in a serum together with a few percent of other non-rubber substances such as proteins, lipids, carbohydrates, sugars and some metals (non-rubber fractions).  The remaining major component is water. 

Natural rubber latex is obtained from the Hevea Brasiliensis tree when it’s bark is tapped.  It is a milky fluid comprising 30-40% of rubber hydrocarbon particles suspended in a serum together with a few percent of other non-rubber substances such as proteins, lipids, carbohydrates, sugars and some metals (non-rubber fractions).  The remaining major component is water.

COST ESTIMATION

Plant Capacity                                 1,68,000 Pcs/Day

Land & Building (4000 sq.mt.)        Rs. 2.73 Cr

Plant & Machinery                             Rs. 6.40 Cr

Working Capital for 1 Month          Rs. 46 Lac

Total Capital Investment                   Rs. 9.88 Cr

Rate of Return                                    16%

Break Even Point                               67%



  • INTRODUCTION
  • HAND PROTECTION- ONE OF PPE’S
  • CHOICE OF GLOVES
  • PROJECT LOCATION: - VIZAG, AP
  • MAP
  • GEOGRAPHY
  • ECONOMY
  • TOURIST ATTRACTIONS
  • CONNECTIVITY
  • BRIEF HISTORY OF RUBBER
  • JOSEPH LISTER AND SURGICAL ASEPSIS
  • THE HISTORY OF DISPOSABLE GLOVES
  • TODAY
  • TYPES OF DISPOSABLE GLOVES EXIST
  • USES & APPLICATION OF THIN NITRILE GLOVES
  • 1) MEDICAL GLOVES
  • THE BASIC ELEMENTS OF EN455 ARE:
  • 2) INDUSTRIAL, LABORATORY AND PHARMACEUTICAL GLOVES
  • 3), WITH A CATEGORY 2 GLOVE WHICH DOES NOT FALL INTO THE 
  •      CATEGORIES 1 OR 3
  • MECHANICAL PROPERTIES
  • MECHANICAL PROPERTIES OF RUBBER LATEX GLOVE FILM AFTER 
  •      DIPPING MOLD
  • TYPES OF GLOVES
  • MEDICAL GLOVES
  • MEDICAL GLOVES CAN FURTHER BE DIVIDED INTO TWO,
  • HOUSEHOLD GLOVES
  • INDUSTRIAL GLOVES
  • SPECIALITY GLOVES
  • EMERGENCY SERVICES
  • POLICE GLOVES
  • GLOVE PROPERTIES
  • AFTER TREATMENTS OF GLOVES
  • CHLORINATION
  • POLYMER COATING
  • HYDROGEL COATINGS
  • GLOVE ALLERGY AND IT’S REMEDIES
  • TYPE I ALLERGY
  • TYPE IV ALLERGY
  • "SAFE" PROTEIN LEVELS
  • POWDER-FREE GLOVES
  • TESTING AND QUALITY CONTROL OF GLOVES
  • IN-PROCESS TESTING
  • DIPPED LATEX PRODUCTS
  • WET-COACERVANT DIPPING
  • DRY-COACERVANT DIPPING (COAGULANT DIPPING)
  • HEAT SENSITIZED DIPPING
  • ELECTRO DEPOSITION
  • FORMERS
  • DIPPING TANKS
  • DIPPING MACHINES
  • SEQUENCE OF OPERATIONS
  • GLOVE PRODUCTION & MANUFACTURING
  • THE GLOVES ARE MANUFACTURED BY EITHER A
  • BATCH DIPPING PROCESS
  • CONTINUOUS DIPPING PROCESS
  • LATEX DIPPING
  • LATEX CONCENTRATE
  • COMPOUNDING
  • COAGULANT DIPPING
  • LATEX DIPPING
  • BEADING
  • LEACHING
  • VULCANIZATION
  • POST LEACHING
  • SLURRY DIP
  • BEADING
  • LEACHING
  • VULCANIZATION
  • POST LEACHING
  • SLURRY DIP
  • STRIPPING
  • TUMBLING
  • GLOVE PACKING
  • GLOVE STERILIZATION
  • FINISHED GLOVES
  • CHLORINATED POWDER FREE GLOVES
  • POLYMER COATING POWDER FREE GLOVES
  • LATEX COMPOUND DESIGN FOR DIPPED GOODS
  • POLYMER:
  • FILLERS:
  • SOFTENERS:
  • STABILISERS:
  • ANTIOXIDANTS:
  • VISCOSITY MODIFIERS:
  • OTHER ADDITIVES
  • BRIEF ABOUT VULCANIZATION & ACCELERATORS
  • ACCELERATORS:
  • RAW MATERIAL
  • EXAMINATION GLOVES USED IN HEALTHCARE
  • PROCESS FLOW DIAGRAM
  • FORMULATION
  • NR &NBR LATEX
  • FUTURE DEVELOPMENTS
  • 1) CLEANROOM GLOVES
  • 2) ACCELERATOR FREE GLOVES
  • 3) AQL 0.65
  • ADVANTAGE & DISADVANTAGE
  • ADVANTAGE & DISADVANTAGE
  • THE QUALITY-CONTROL PHASE
  • MARKET POSITION
  • RISING HEALTHCARE INVESTMENT ACROSS THE GLOBE WILL PROPEL 
  •     PRODUCT PENETRATION
  • PREVALENCE OF STRINGENT GOVERNMENT REGULATIONS
  • PRODUCT SEGMENT
  • FORM SEGMENT REVIEW
  • KEY BENEFITS FOR INDIA DISPOSABLE GLOVES MARKET:
  • BY PRODUCT
  • BY FORM
  • BY APPLICATION
  • BY DISTRIBUTION CHANNEL
  • MACHINERY SUPPLIERS
  • RAW MATERIAL SUPPLIERS
  • NR LATEX
  • POLYETHYLENE OXIDE FATTY ALCOHOL
  • KOH SOLUTION
  • POLYPHENOL (ANTIOXIDANT DISPERSION)
  • STYRENATED PHENOL (ANTIOXIDANT DISPERSION)
  • ZINC OXIDE
  • SULPHER
  • ZDEC, ZDBC, TMTD
  • PRINCIPLES OF PLANT LAYOUT
  • MAJOR PROVISIONS IN ROAD PLANNING FOR MULTIPURPOSE SERVICE ARE:
  • PLANT LOCATION FACTORS
  • PRIMARY FACTORS
  • 1. RAW-MATERIAL SUPPLY:
  • 2. MARKETS:
  • 3. POWER AND FUEL SUPPLY:
  • 4. WATER SUPPLY:
  • 5. CLIMATE:
  • 6. TRANSPORTATION:
  • 7. WASTE DISPOSAL:
  • 8. LABOR:
  • 9. REGULATORY LAWS:
  • 10. TAXES:
  • 11. SITE CHARACTERISTICS:
  • 12. COMMUNITY FACTORS:
  • 13. VULNERABILITY TO WARTIME ATTACK:
  • 14. FLOOD AND FIRE CONTROL:
  • EXPLANATION OF TERMS USED IN THE PROJECT REPORT
  • 1. DEPRECIATION:
  • 2. FIXED ASSETS:
  • 3. WORKING CAPITAL:
  • 4. BREAK-EVEN POINT:
  • 5. OTHER FIXED EXPENSES:
  • 6. MARGIN MONEY:
  • 7. TERM LOANS:
  • 8. TOTAL LOAD:
  • 9. LAND AREA/MAN POWER RATIO:
  • PROJECT IMPLEMENTATION SCHEDULES
  • INTRODUCTION
  • PROJECT HANDLING
  • PROJECT SCHEDULING
  • PROJECT CONSTRUCTION SCHEDULE
  • TIME SCHEDULE
  • RAW MATERIAL PHOTOGRAPHS
  • NBR LATEX
  • KOH SOLUTION
  • STYRENATED PHENOL
  • ZINC OXIDE
  • SULPHER
  • ZDBC
  • TMTD


APPENDIX – A:


01. PLANT ECONOMICS

02. LAND & BUILDING

03. PLANT AND MACHINERY

04. OTHER FIXED ASSESTS

05. FIXED CAPITAL

06. RAW MATERIAL

07. SALARY AND WAGES

08. UTILITIES AND OVERHEADS

09. TOTAL WORKING CAPITAL

10. TOTAL CAPITAL INVESTMENT

11. COST OF PRODUCTION

12. TURN OVER/ANNUM

13. BREAK EVEN POINT

14. RESOURCES FOR FINANCE

15. INSTALMENT PAYABLE IN 5 YEARS

16. DEPRECIATION CHART FOR 5 YEARS

17. PROFIT ANALYSIS FOR 5 YEARS

18. PROJECTED BALANCE SHEET FOR (5 YEARS)


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