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Fiber Film
- 1. PRESENTING BY MD. AHSANUL MOBIN 1721048 DEPT. OF TEXTILE ENGINEERING, KUET PRESENTING TO MD. MONIRUZZAMAN ASST. PROFESSOR DEPT. OF TEXTILE ENGINEERING, KUET
- 2. N EW S 2 BANGLADESH CONTAINER DEPOT FIRE: 49 KILLED, OVER 200 INJURED IN CHATTOGRAM CONTAINER DEPOT FIRE
- 5. EXCELLENT PUNCTURE RESISTANCE EXCELLENT PALLET STABILITY HIGH ELONGATION FIBER FILM IS A UNIQUE HIGH-EFFICIENCY STRETCH FILM WITH REINFORCEMENT ELEMENTS (FIBERS) THAT INCREASE TEAR RESISTANCE. THIS REINFORCED STRETCH FILM COMBINES HIGH ELONGATION, EXCEPTIONAL PUNCTURE RESISTANCE, AND EXCELLENT PALLET STABILITY. FIBER FILM CAN BE USED TO WRAP ALL TYPES OF LOADS AND IS SUITABLE FOR BOTH HAND AND MACHINE APPLICATIONS. F I L M F I BER O V E R V IEW 5 FIBER FILM
- 6. FIBER FILM IS A UNIQUE REINFORCED STRETCH FILM THAT WILL DELIVER UP TO 60% WEIGHT SAVINGS AND CUT YOUR COSTS UP TO 30% WHILST INCREASING YOUR LOAD STABILITY BY UP TO 30% F A CT 6
- 7. F I L M F I BER O V E R V IEW 7 MAIN INGREDIENT LLDPE (LOW LINEAR DENSITY POLYETHYLENE OR POLYTHENE) IS THE BASIC MATERIAL BROADLY USED IN WRAPPING ROLL PRODUCTION. FIBER FILM IS A UNIQUE APPROACH THAT TRANSFORMS POLYETHYLENE (POLYTHENE) INTO REINFORCEMENT ELEMENTS (FIBERS) THAT HIGHLY INCREASE TEAR-RESISTANCE AND SIGNIFICANTLY REINFORCE DURABILITY.
- 9. M A N UF A CT URI N G P R O CES S 9 SCHEME OF THE LLDPE PROCESS SCHEME OF THE LDPE PROCESS: (1) REACTION GAS (2) CATALYST INJECTION (3) PRE COMPRESSOR (4) AFTER-COMPRESSOR (5) REACTOR (6) PRESSURE CONTROL VALVE (7) HIGH-PRESSURE SEPARATOR (8) PRODUCT VALVE (9) LOW-PRESSURE SEPARATOR (10) LOW-PRESSURE SEGREGATION (11) HIGH-PRESSURE SEGREGATION (12) LOW-PRESSURE GAS RECYCLING (13) HIGH-PRESSURE GAS RECYCLING (14) FLUE GAS
- 10. M A N UF A CT URI N G P R O CES S 10 REASONS BEHIND USING LLDPE 1. ONLY THERMOPLASTIC POLYMERS WHICH ARE THERMALLY STABLE AT THEIR PROCESSING TEMPERATURE ARE SUITED FOR THE FIBER FILM PROCESSING TECHNIQUE. 2. LESS UNIFORM IN FINENESS AND LIMITED TO THE UPPER RANGE OF FILTERS. 3. THE POLYMERIC RAW MATERIAL'S PRICE IS A DECISIVE INFLUENCE. 4. ONLY POLYMERS WITH WEAK INTERMOLECULAR FORCES WHICH PRODUCE THE FILM AT HIGH STRETCH RATIOS, WITH A PRONOUNCED ANISOTROPY, COMPLY FAVORABLY WITH FILM FIBRILLATION, FILM SITTING, OR FILM CUTTING TECHNIQUES. 5. THEY PUT UP LESS RESISTANCE AGAINST MECHANICAL FIBRILLATION AND EXERT LESS STRAIN ON THE SLITTING OR CUTTING DEVICES DURING FILM-TO-FIBER SEPARATION.
- 12. A D V A N T A G E S 12 CONVENTIONAL PRE-STRETCH FILM VS FIBER FILM
- 13. • REDUCE COSTS BY MINIMIZING COST PER PALLET BY UP TO 40% • EXCELLENT PALLET STABILIZATION • SUPERIOR PALLET STABILITY • WASTE VOLUME REDUCTION • 100% RECYCLABLE • REDUCE THE FILM USED TO WRAP A PALLET UP TO 60% • TEAR-RESISTANT - HIGH STRETCHABILITY • EXCEPTIONAL LOAD RETENTION • OPTIMUM HOLDING FORCE • UNIQUE, NOVEL & ERGONOMIC DESIGN A D V A N T A G E S 13 MAIN ADVANTAGES
- 14. 14
- 15. 15 RESOURCES
- 16. G A L L E R Y 16
- 17. R E S O U R CE S 17 • FIBER TECHNOLOGY: FROM FILM TO FIBER - HANS A CRASSIG, JURGEN LENZ, HERMAN F. MARK • FIBER FILM - MINIMISE YOUR COST PER PALLET.MP4 - YOUTUBE • FIBER FILM – YOUTUBE • MEGAPLAST - MEET MEGAPLAST (MEGAPLAST-USA.COM)