SlideShare a Scribd company logo

Polyester, Rice husk and Banana fibre as composites

Download as PPTX, PDF
Vinit Singh
Vinit Singh

Polyester, Rice husk and Banana fibre as composites

Engineering
1 of 31
A PRESENTATION ON Polyester, Rice husk and Banana fibre as composites Presented by: Vinit Singh 2016PPE5370 Presented to: Dr. Mukesh Kumar Dept. of Mechanical Engineering 1
POLYESTER 2
DEFINATION • POLYESTER (AKA TERYLENE) IS A CATEGORY OF POLYMERS WHICH CONTAIN THE ESTER FUNCTIONAL GROUP IN THEIR MAIN CHAIN. “Long chain polymers chemically composed of at least 85% by weight of an ester and a dihydric alcohol and terephthalic acid”. The name “polyester” refers to the linkage of several monomers (esters) within the fiber.
HISTORY • IN 1926, UNITED STATES-BASED E.I. DU PONT DE NEMOURS AND CO. BEGAN RESEARCH INTO VERY LARGE MOLECULES AND SYNTHETIC FIBERS • W.H. CAROTHERS, CENTERED ON WHAT BECAME NYLON, THE FIRST SYNTHETIC FIBER. • 1939-41, BRITISH RESEARCH CHEMISTS TOOK INTEREST IN THE DU PONT STUDIES AND CONDUCTED THEIR OWN RESEARCH IN THE LABORATORIES OF CALICO PRINTERS ASSOCIATION, LTD. THIS WORK RESULTED IN THE CREATION OF THE POLYESTER FIBER KNOWN IN ENGLAND AS TERYLENE. • IN 1946, DU PONT PURCHASED THE RIGHT TO PRODUCE THIS POLYESTER FIBER IN THE UNITED STATES. • THE COMPANY CONDUCTED SOME FURTHER DEVELOPMENTAL WORK, AND IN 1951, BEGAN TO MARKET THE FIBER UNDER THE NAME DACRON
FORMS OF POLYESTER 1. FILAMENT 2. STAPLE 3. TOW 4. FIBERFILL
USES OF DIFFERENT FORM IN DIFFERENT PLACES 1. IN THE FILAMENT FORM, EACH INDIVIDUAL STRAND OF POLYESTER FIBER IS CONTINUOUS IN LENGTH, PRODUCING SMOOTH-SURFACED FABRICS 2. IN STAPLE FORM, FILAMENTS ARE CUT TO SHORT, PREDETERMINED LENGTHS. IN THIS FORM POLYESTER IS EASIER TO BLEND WITH OTHER FIBERS 3. TOW IS A FORM IN WHICH CONTINUOUS FILAMENTS ARE DRAWN LOOSELY TOGETHER 4. FIBERFILL IS THE VOLUMINOUS FORM USED IN THE MANUFACTURE OF QUILTS, PILLOWS, AND OUTERWEAR
Microscopic View
STRUCTURE AND APPERANCE • COLOURLESS AND TRANSPARENT • SMOOTH AND LUSTURUOS • SHAPE AS WE REQIURE • SHINY GLASSROD LIKE
POLYESTER FIBER CHARACTERISTICS STRONG RESISTANT TO STRETCHING AND SHRINKING RESISTANT TO MOST CHEMICALS QUICK DRYING CRISP AND RESILIENT WHEN WET OR DRY WRINKLE RESISTANT MILDEW RESISTANT ABRASION RESISTANT RETAINS HEAT-SET PLEATS AND CREASE EASILY WASHED
DISTINGUISHING FORM OTHERS  DISTINGUISHING POLYESTERS FROM OTHER FIBERS: POLYESTER IS SOLUBLE IN HOT META CRESOL; HOWEVER ,UNLIKE ACETATE IT IS NOT SOLUBLE IN ACETONE, AND UNLIKE NYLON IT IS NOT SOLUBLE IN CONCENTRATED FORMIC ACID.
POLYESTER BLENDS • POLYESTER AND COTTON 1. RESIST WRINKLES 2. RESIST STAINS 3. RETAIN SHAPE
POLYESTER BLENDS • POLYESTER AND WOOL 1. WRINKLE RESISTANCE 2. SHAPE RETENTION 3. INCREASE DURABILITY
POLYESTER BLENDS • POLYESTER AND RAYON 1. MORE DURABLE 2. SHAPE RETENTION 3. MORE RESILIENCE
PROPERTIES DENIER: 0.5 – 15  TENACITY : DRY 3.5 - 7.0 : WET 3.5 - 7.0  ELONGATION AT BREAK : DRY 15 - 45 : WET 15 45%  MOISTURE REGAIN: 0.2-0.5%  SPECIFIC GRAVITY: 1.36 - 1.41%  ELASTIC RECOVERY : @2% =98 : @5% = 65  MELTING POINT : 260 - 270 DEGREE C  EFFECT OF SUNLIGHT : TURNS YELLOW, RETAINS 70 - 80 % TENACITY AT LONG EXPOSURE  RESISTANCE TO WEATHERING: GOOD  ROT RESISTANCE: HIGH  ALKALI RESISTANCE: DAMAGED BY CON ALKALI  ACID RESISTANCE: EXCELLENT  INSECTS: NO EFFECT 
CHEMISTRY OF POLYESTER FIBER COOHHOOC + CH3OH COOCH3CH3OOC COOCH3CH3OOC + HOCH2CH2OH COOCH2CH2OHHOCH2CH2OOC CH3OH+ Terephthalic Acid Dimethyl Terephthalate Bis(2-Hydroxyethyl) Terephthlate Polyester Ethylene Glycol C O COCH2CH2O O C O OCH2CH2OC O Polymerization n
OTHER PROPERTIES OF POLYESTER • FINENESS OF POLYESTER TEXTILE: FINENESS OF POLYESTER FIBER IS ALSO CONTROLLABLE. X-SECTIONAL SHAPE: NORMAL CROSS SECTIONAL SHAPE IS ROUND BUT IT IS ALSO MADE TRIANGULAR, ELLIPTICAL OR PENTAGONAL. NORMALLY IT IS WHITE BUT COULD BE OF ANY COLOR IF COLOR IS ADDED DURING SPINNING. EXTENSIBILITY: EXTENSION AT BREAK VARIES FROM 20% TO 30 %. GOOD RECOVERY FROM EXTENSION. DUE TO GOOD EXTENSION, STRENGTH AND FUNCTIONAL PROPERTY POLYESTER IS WIDELY USED AS SEWING THREAD IN THE GARMENT INDUSTRIES. RESILIENCY: POLYESTER TEXTILE SHOWS GOOD RESILIENCY PROPERTY. IT DOES NOT CREASE EASILY AND ANY UNDUE CREASE CAN BE RECOVERED EASILY. DIMENSIONAL STABILITY: POLYESTER FIBER IS DIMENSIONALLY STABLE. IT COULD BE HEAT-SET AT AROUND 200 DEGREE C. HEAT SET POLYESTER FIBER DOES NOT SHRINK OR EXTENDED. ACTION OF BLEACHING AGENTS: IT IS NOT DAMAGED BY THE ACTION OF BLEACHING
RICE HUSKS 17
BANANA FIBRE 18
INTRODUCTION • THE NATURAL FIBERS ARE RENEWABLE, NON-ABRASIVE, BIO-DEGRADABLE, POSSESS A GOOD CALORIFIC VALUE, EXHIBIT EXCELLENT MECHANICAL PROPERTIES AND ARE INEXPENSIVE. • THIS GOOD ENVIRONMENTAL FRIENDLY FEATURE MAKES THE MATERIALS VERY POPULAR IN ENGINEERING MARKETS SUCH AS THE AUTOMOTIVE AND CONSTRUCTION INDUSTRY. • THE BANANA FIBERS ARE WASTE PRODUCT OF BANANA CULTIVATION, THEREFORE WITHOUT ANY ADDITIONAL COST THESE FIBERS CAN BE OBTAINED FOR INDUSTRIAL PURPOSES. 19
BANANA FIBER • BANANA PLANT NOT ONLY GIVES THE DELICIOUS FRUIT BUT IT ALSO PROVIDES TEXTILE FIBER, THE BANANA FIBER. • IT GROWS EASILY AS IT SETS OUT YOUNG SHOOTS AND IS MOST COMMONLY FOUND IN HOT TROPICAL CLIMATES. • ALL VARIETIES OF BANANA PLANTS HAVE FIBERS IN ABUNDANCE. • THESE FIBERS ARE OBTAINED AFTER THE FRUIT IS HARVESTED AND FALL IN THE GROUP OF BAST FIBERS. • THIS PLANT HAS LONG BEEN A GOOD SOURCE FOR HIGH QUALITY TEXTILES IN MANY PARTS OF THE WORLD, ESPECIALLY IN JAPAN AND NEPAL. 20
PROPERTIES OF BANANA FIBER • BANANA FIBER IS SIMILAR TO THAT OF BAMBOO FIBER, BUT ITS FINENESS AND SPIN ABILITY IS BETTER. • THE CHEMICAL COMPOSITION OF BANANA FIBER IS CELLULOSE, HEMICELLULOSE, AND LIGNIN. • IT IS HIGHLY STRONG FIBER. • IT HAS SMALLER ELONGATION. • IT HAS GOT SHINY APPEARANCE DEPENDING UPON THE EXTRACTION & SPINNING PROCESS. • IT IS LIGHT WEIGHT. • IT ABSORBS AS WELL AS RELEASES MOISTURE VERY FAST. • IT IS BIO- DEGRADABLE AND HAS NO NEGATIVE EFFECT ON ENVIRONMENT AND THUS CAN BE CATEGORIZED AS ECO-FRIENDLY FIBER. • IT CAN BE SPUN THROUGH ALMOST ALL THE METHODS OF SPINNING INCLUDING RING 21
COMPOSITION OF FEW COMMONLY USED NATURAL FIBERS 22
METHOD OF PREPARATION • REQUIRED MATERIALS ARE: • BANANA FIBER • RESIN (POLYESTER, CAN BE USED MANY) • HARDENER (METHYL ETHYL KETONE PEROXIDE, MANY OTHERS CAN BE USED AS HARDENER) • FILLER (SILICON POWDER, MANY OTHER TYPE OF FILLERS CAN BE USED) • RELEASING AGENT Resin Hardene r Filler 23
STEPS INVOLVED • THE BANANA FIBER IS OBTAINED FROM BANANA PLANT. • THE EXTRACTED BANANA FIBER FIRSTLY SUN DRIED AND THEN DRIED IN OVEN TO REMOVE WATER CONTENT PRESENT IN THE FIBER. • THEN BANANA FIBER OF DIFFERENT LENGTH IS MIXED WITH MATRIX MIXTURE WITH THEIR RESPECTIVE VALUES BY SIMPLE MECHANICAL STIRRING AND MIXTURE ARE SLOWLY POURED IN DIFFERENT MOULDS. • RELEASING AGENT IS USED ON MOULD SHEET WHICH GIVES EASE TO REMOVAL OF COMPOSITE FROM THE MOULD. • AFTER POURING IN TO THE MOULD IT IS HEATED TO 30°C FOR APPROXIMATELY 24 HOURS. • A CONSTANT LOAD IS APPLIED ON TO THE MOULD. 24
COMPOSITION OF MATERIALS• RESIN-60% • HARDENER -10% • FILLER- 30% 25 Fabricated banana fiber reinforced composite
INFLUENCE OF FIBER PARAMETERS ON TENSILE STRENGTH • THE MECHANICAL BEHAVIOR OF THE BANANA FIBER BASED EPOXY COMPOSITES DEPENDS ON FIBER PARAMETERS • THE TENSILE STRENGTH OF BANANA FIBER REINFORCED COMPOSITES INCREASES WITH INCREASE IN FIBER LENGTH AND LOADING. 26
INFLUENCE OF FIBER PARAMETERS ON FLEXURAL STRENGTH • WHEN FIBER LENGTH INCREASES THE FLEXURAL STRENGTH OF THE FABRICATED COMPOSITES FIRST INCREASES UP TO 10 MM LENGTH AND THEN DECREASES. • WHEN FIBER LOADING INCREASE THEN FLEXURAL STRENGTH INCREASE UP TO FIBER LOADING 15% THEN DECREASES. • THE MAXIMUM FLEXURAL STRENGTH IS OBSERVED WHEN FIBER LENGTH IS 10 MM AND 27
INFLUENCE OF FIBER PARAMETER ON IMPACT STRENGTH • THE IMPACT ENERGY IS INCREASES WITH INCREASE IN FIBER LENGTH. IT ALSO SHOW THAT THE IMPACT ENERGY INCREASES WITH INCREASES IN FIBER LOADING. • THE MAXIMUM IMPACT ENERGY ABSORBED BY THE MATERIAL 15 MM LENGTH OF FIBER AND 20% FIBER CONTENT. 28
INFLUENCE OF FIBER PARAMETERS ON HARDNESS • THE HARDNESS VALUE INCREASES WITH INCREASE IN FIBER LENGTH AND IT IS MAXIMUM AT 10 MM FIBER LENGTH. • HOWEVER, WITH INCREASE OF FIBER LOADING HARDNESS VALUE INCREASES UP TO FIBER LOADING 15% THEN THE HARDNESS VALUE DECREASES. 29
USES • AUTOMOBILE INDUSTRIES • BANANA FIBER COMPOSITE WALL • FLOOR TOPPING OF HOUSES • WINDOW APPLICATION • CONSTRUCTION INDUSTRIES 30
REFERENCES • KULKARNI A. G., ROHATGI P. K., SATYANARAYANA K. G., SUKUMARAN K., PILLAI S. G. K., FABRICATION AND PROPERTIES OF NATURAL FIBER-REINFORCED POLYESTER COMPOSITES, COMPOSITES, 17 (1986), PP. 329-333. • MERLINI C., SOLDI V. , BARRA G. M. O., INFLUENCE OF FIBER SURFACE TREATMENT AND LENGTH ON PHYSICO-CHEMICAL PROPERTIES OF SHORT RANDOM BANANA FIBER-REINFORCED CASTOR OIL POLYURETHANE COMPOSITES, POLYMER TESTING, 30 (2011), PP. 833–840. • DHIEB H., BUIJNSTERS J. G., EDDOUMY F., VÁZQUEZ L., CELIS J.P., SURFACE AND SUB-SURFACEDEGRADATION OF UNIDIRECTIONAL CARBON FIBER REINFORCED EPOXY COMPOSITES UNDER DRY AND WET RECIPROCATING SLIDING, COMPOSITES PART A: APPLIED SCIENCE AND MANUFACTURING, 55 (2013), PP. 53–62. • HTTP://WWW.SCIENCEDIRECT.COM/SCIENCE/ARTICLE/PII/S1877705814033517 • HTTPS://WWW.RESEARCHGATE.NET/PUBLICATION/249356546_BANANA_FIBER_REINFORCED_POLYMER_COMPOSITES_- _A_REVIEW • WIKIPEDIA.ORG • GOOGLE IMAGES • GOOGLE SEARCH 31

Recommended

Textile Composites
Textile CompositesTextile Composites
Textile Composites
Waqas Paracha
 
Technology of-short-staple-spinning 2
Technology of-short-staple-spinning 2Technology of-short-staple-spinning 2
Technology of-short-staple-spinning 2
Amit Biswas
 
Drawing and texturising
Drawing and texturising Drawing and texturising
Drawing and texturising
Md. Mazadul Hasan Shishir
 
Nonwoven web formation rajesh
Nonwoven web formation rajeshNonwoven web formation rajesh
Nonwoven web formation rajesh
Bannari Amman Institute of Technology
 
Traveller
TravellerTraveller
Traveller
Harish Pratabhcc
 
Natural fibres composites
Natural fibres compositesNatural fibres composites
Natural fibres composites
Nazmul Jony
 
Fibrefiness
FibrefinessFibrefiness
Fibrefiness
Nitish Sharma
 
Protective Textile
Protective TextileProtective Textile
Protective Textile
Ojas Jain
 

Recommended

Textile Composites
Textile CompositesTextile Composites
Textile Composites
Waqas Paracha
 
Technology of-short-staple-spinning 2
Technology of-short-staple-spinning 2Technology of-short-staple-spinning 2
Technology of-short-staple-spinning 2
Amit Biswas
 
Drawing and texturising
Drawing and texturising Drawing and texturising
Drawing and texturising
Md. Mazadul Hasan Shishir
 
Nonwoven web formation rajesh
Nonwoven web formation rajeshNonwoven web formation rajesh
Nonwoven web formation rajesh
Bannari Amman Institute of Technology
 
Traveller
TravellerTraveller
Traveller
Harish Pratabhcc
 
Natural fibres composites
Natural fibres compositesNatural fibres composites
Natural fibres composites
Nazmul Jony
 
Fibrefiness
FibrefinessFibrefiness
Fibrefiness
Nitish Sharma
 
Protective Textile
Protective TextileProtective Textile
Protective Textile
Ojas Jain
 
Abhi rana)4. dry laid non woven fabrics
Abhi rana)4. dry laid non woven fabricsAbhi rana)4. dry laid non woven fabrics
Abhi rana)4. dry laid non woven fabrics
Abhishek Rana
 
Air jet-spinning-of-cotton-yarns
Air jet-spinning-of-cotton-yarnsAir jet-spinning-of-cotton-yarns
Air jet-spinning-of-cotton-yarns
Samrat Dewan
 
Textile terms and definitions
Textile terms and definitionsTextile terms and definitions
Textile terms and definitions
KAMRAN AHMAD KHAN
 
Fabric geometry
Fabric geometryFabric geometry
Fabric geometry
Rashedul Islam
 
Friction spinning System
Friction spinning System Friction spinning System
Friction spinning System
Abdullah Al Parvez
 
Nonwoven
NonwovenNonwoven
Nonwoven
Md. Mazadul Hasan Shishir
 
Non woven Process
Non woven ProcessNon woven Process
Non woven Process
MAHESH PRATAP DUBEY
 
flame retardant and proof finish
flame retardant and proof finishflame retardant and proof finish
flame retardant and proof finish
MelkamuKenito
 
Yarn manufacturing Process : Carding
Yarn manufacturing Process : CardingYarn manufacturing Process : Carding
Yarn manufacturing Process : Carding
SVKMs, NMIMS, MPSTME, CTF, Shirpur, Dist. Dhule
 
Spun Laid Process, Melt Blown Process, Differences between spun laid Process ...
Spun Laid Process, Melt Blown Process, Differences between spun laid Process ...Spun Laid Process, Melt Blown Process, Differences between spun laid Process ...
Spun Laid Process, Melt Blown Process, Differences between spun laid Process ...
MD. SAJJADUL KARIM BHUIYAN
 
Nonwoven
NonwovenNonwoven
Nonwoven
Md. Mazadul Hasan Shishir
 
Lyocell fiber
Lyocell fiberLyocell fiber
Lyocell fiber
মোঃ গোলাম সারোয়ার
 
Fibres
FibresFibres
Fibres
Moniruzzaman Khan
 
Simplex machine. Roving, sliver
Simplex machine. Roving, sliverSimplex machine. Roving, sliver
Simplex machine. Roving, sliver
srsujandiu
 
Weltandpiques
WeltandpiquesWeltandpiques
Weltandpiques
Mohammad furqan
 
Special yarn
Special yarnSpecial yarn
Special yarn
mamun4173
 
2. textile reinforced composites
2. textile reinforced composites2. textile reinforced composites
2. textile reinforced composites
Ghent University
 
Mechanical Bonding
Mechanical BondingMechanical Bonding
Mechanical Bonding
ctkiaora81
 
Assignment on parameter of different parts of ring frame machine of yarn ii
Assignment on parameter of different parts of ring frame machine of yarn iiAssignment on parameter of different parts of ring frame machine of yarn ii
Assignment on parameter of different parts of ring frame machine of yarn ii
Partho Biswas
 
wet laid web preparation
wet laid web preparationwet laid web preparation
wet laid web preparation
MelkamuKenito
 
Ppt on polyster matrix in rockwool fiber and cobalt particulates
Ppt on polyster matrix in rockwool fiber and cobalt particulatesPpt on polyster matrix in rockwool fiber and cobalt particulates
Ppt on polyster matrix in rockwool fiber and cobalt particulates
jangidmanish816
 
Fibres and fabrics
Fibres and fabricsFibres and fabrics
Fibres and fabrics
DeepakKumar5597
 

More Related Content

What's hot

Assignment on parameter of different parts of ring frame machine of yarn ii
Assignment on parameter of different parts of ring frame machine of yarn iiAssignment on parameter of different parts of ring frame machine of yarn ii
Assignment on parameter of different parts of ring frame machine of yarn ii
Partho Biswas
 

What's hot (20)

Abhi rana)4. dry laid non woven fabrics
Abhi rana)4. dry laid non woven fabricsAbhi rana)4. dry laid non woven fabrics
Abhi rana)4. dry laid non woven fabrics
 
Air jet-spinning-of-cotton-yarns
Air jet-spinning-of-cotton-yarnsAir jet-spinning-of-cotton-yarns
Air jet-spinning-of-cotton-yarns
 
Textile terms and definitions
Textile terms and definitionsTextile terms and definitions
Textile terms and definitions
 
Fabric geometry
Fabric geometryFabric geometry
Fabric geometry
 
Friction spinning System
Friction spinning System Friction spinning System
Friction spinning System
 
Nonwoven
NonwovenNonwoven
Nonwoven
 
Non woven Process
Non woven ProcessNon woven Process
Non woven Process
 
flame retardant and proof finish
flame retardant and proof finishflame retardant and proof finish
flame retardant and proof finish
 
Yarn manufacturing Process : Carding
Yarn manufacturing Process : CardingYarn manufacturing Process : Carding
Yarn manufacturing Process : Carding
 
Spun Laid Process, Melt Blown Process, Differences between spun laid Process ...
Spun Laid Process, Melt Blown Process, Differences between spun laid Process ...Spun Laid Process, Melt Blown Process, Differences between spun laid Process ...
Spun Laid Process, Melt Blown Process, Differences between spun laid Process ...
 
Nonwoven
NonwovenNonwoven
Nonwoven
 
Lyocell fiber
Lyocell fiberLyocell fiber
Lyocell fiber
 
Fibres
FibresFibres
Fibres
 
Simplex machine. Roving, sliver
Simplex machine. Roving, sliverSimplex machine. Roving, sliver
Simplex machine. Roving, sliver
 
Weltandpiques
WeltandpiquesWeltandpiques
Weltandpiques
 
Special yarn
Special yarnSpecial yarn
Special yarn
 
2. textile reinforced composites
2. textile reinforced composites2. textile reinforced composites
2. textile reinforced composites
 
Mechanical Bonding
Mechanical BondingMechanical Bonding
Mechanical Bonding
 
Assignment on parameter of different parts of ring frame machine of yarn ii
Assignment on parameter of different parts of ring frame machine of yarn iiAssignment on parameter of different parts of ring frame machine of yarn ii
Assignment on parameter of different parts of ring frame machine of yarn ii
 
wet laid web preparation
wet laid web preparationwet laid web preparation
wet laid web preparation
 

Similar to Polyester, Rice husk and Banana fibre as composites

Similar to Polyester, Rice husk and Banana fibre as composites (20)

Ppt on polyster matrix in rockwool fiber and cobalt particulates
Ppt on polyster matrix in rockwool fiber and cobalt particulatesPpt on polyster matrix in rockwool fiber and cobalt particulates
Ppt on polyster matrix in rockwool fiber and cobalt particulates
 
Fibres and fabrics
Fibres and fabricsFibres and fabrics
Fibres and fabrics
 
PPT ON BANANA FIBRE
PPT ON BANANA FIBREPPT ON BANANA FIBRE
PPT ON BANANA FIBRE
 
Banana Fiber Reinforced Composite Materials
Banana Fiber Reinforced Composite MaterialsBanana Fiber Reinforced Composite Materials
Banana Fiber Reinforced Composite Materials
 
Man made fibers
Man made fibersMan made fibers
Man made fibers
 
regenerated fibers
regenerated fibersregenerated fibers
regenerated fibers
 
Dr bmn college - acetate rayon , aramid fibers
Dr bmn college - acetate rayon , aramid fibersDr bmn college - acetate rayon , aramid fibers
Dr bmn college - acetate rayon , aramid fibers
 
Fiber'.pptx
Fiber'.pptxFiber'.pptx
Fiber'.pptx
 
jute.pptx
jute.pptxjute.pptx
jute.pptx
 
RECENT ADVANCES AND DEVELOPMENTS IN COMPOSITE DENTAL RESTORATIVE [Autosaved]....
RECENT ADVANCES AND DEVELOPMENTS IN COMPOSITE DENTAL RESTORATIVE [Autosaved]....RECENT ADVANCES AND DEVELOPMENTS IN COMPOSITE DENTAL RESTORATIVE [Autosaved]....
RECENT ADVANCES AND DEVELOPMENTS IN COMPOSITE DENTAL RESTORATIVE [Autosaved]....
 
03. UNCONVENTIONAL NATURAL FIBRES_PPT (1).pdf
03. UNCONVENTIONAL NATURAL FIBRES_PPT (1).pdf03. UNCONVENTIONAL NATURAL FIBRES_PPT (1).pdf
03. UNCONVENTIONAL NATURAL FIBRES_PPT (1).pdf
 
Properties, prossesing of natural fiber
Properties, prossesing of natural fiberProperties, prossesing of natural fiber
Properties, prossesing of natural fiber
 
Polyester
PolyesterPolyester
Polyester
 
Fibers cotton
Fibers cottonFibers cotton
Fibers cotton
 
Names of fibers (1)
Names of fibers (1)Names of fibers (1)
Names of fibers (1)
 
Fibres for the next generation
Fibres for the next generationFibres for the next generation
Fibres for the next generation
 
Cotton - Natural Fiber
Cotton - Natural Fiber Cotton - Natural Fiber
Cotton - Natural Fiber
 
High performance fibers
High performance fibersHigh performance fibers
High performance fibers
 
Dropper Assemblies Truvision polymers ppt
Dropper Assemblies Truvision polymers pptDropper Assemblies Truvision polymers ppt
Dropper Assemblies Truvision polymers ppt
 
Natural Fiber Based Composite Materials
Natural Fiber Based Composite MaterialsNatural Fiber Based Composite Materials
Natural Fiber Based Composite Materials
 

Recently uploaded

💚Trustworthy Call Girls Pune Call Girls Service Just Call 🍑👄6378878445 🍑👄 Top...
💚Trustworthy Call Girls Pune Call Girls Service Just Call 🍑👄6378878445 🍑👄 Top...💚Trustworthy Call Girls Pune Call Girls Service Just Call 🍑👄6378878445 🍑👄 Top...
💚Trustworthy Call Girls Pune Call Girls Service Just Call 🍑👄6378878445 🍑👄 Top...
vershagrag
 
Standard vs Custom Battery Packs - Decoding the Power Play
Standard vs Custom Battery Packs - Decoding the Power PlayStandard vs Custom Battery Packs - Decoding the Power Play
Standard vs Custom Battery Packs - Decoding the Power Play
Epec Engineered Technologies
 
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
ssuser89054b
 
1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf
1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf
1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf
AldoGarca30
 
Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...
Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...
Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...
Arindam Chakraborty, Ph.D., P.E. (CA, TX)
 

Recently uploaded (20)

A Study of Urban Area Plan for Pabna Municipality
A Study of Urban Area Plan for Pabna MunicipalityA Study of Urban Area Plan for Pabna Municipality
A Study of Urban Area Plan for Pabna Municipality
 
Signal Processing and Linear System Analysis
Signal Processing and Linear System AnalysisSignal Processing and Linear System Analysis
Signal Processing and Linear System Analysis
 
fitting shop and tools used in fitting shop .ppt
fitting shop and tools used in fitting shop .pptfitting shop and tools used in fitting shop .ppt
fitting shop and tools used in fitting shop .ppt
 
Computer Networks Basics of Network Devices
Computer Networks Basics of Network DevicesComputer Networks Basics of Network Devices
Computer Networks Basics of Network Devices
 
💚Trustworthy Call Girls Pune Call Girls Service Just Call 🍑👄6378878445 🍑👄 Top...
💚Trustworthy Call Girls Pune Call Girls Service Just Call 🍑👄6378878445 🍑👄 Top...💚Trustworthy Call Girls Pune Call Girls Service Just Call 🍑👄6378878445 🍑👄 Top...
💚Trustworthy Call Girls Pune Call Girls Service Just Call 🍑👄6378878445 🍑👄 Top...
 
Employee leave management system project.
Employee leave management system project.Employee leave management system project.
Employee leave management system project.
 
S1S2 B.Arch MGU - HOA1&2 Module 3 -Temple Architecture of Kerala.pptx
S1S2 B.Arch MGU - HOA1&2 Module 3 -Temple Architecture of Kerala.pptxS1S2 B.Arch MGU - HOA1&2 Module 3 -Temple Architecture of Kerala.pptx
S1S2 B.Arch MGU - HOA1&2 Module 3 -Temple Architecture of Kerala.pptx
 
Thermal Engineering-R & A / C - unit - V
Thermal Engineering-R & A / C - unit - VThermal Engineering-R & A / C - unit - V
Thermal Engineering-R & A / C - unit - V
 
Standard vs Custom Battery Packs - Decoding the Power Play
Standard vs Custom Battery Packs - Decoding the Power PlayStandard vs Custom Battery Packs - Decoding the Power Play
Standard vs Custom Battery Packs - Decoding the Power Play
 
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
 
Orlando’s Arnold Palmer Hospital Layout Strategy-1.pptx
Orlando’s Arnold Palmer Hospital Layout Strategy-1.pptxOrlando’s Arnold Palmer Hospital Layout Strategy-1.pptx
Orlando’s Arnold Palmer Hospital Layout Strategy-1.pptx
 
Design For Accessibility: Getting it right from the start
Design For Accessibility: Getting it right from the startDesign For Accessibility: Getting it right from the start
Design For Accessibility: Getting it right from the start
 
1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf
1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf
1_Introduction + EAM Vocabulary + how to navigate in EAM.pdf
 
HOA1&2 - Module 3 - PREHISTORCI ARCHITECTURE OF KERALA.pptx
HOA1&2 - Module 3 - PREHISTORCI ARCHITECTURE OF KERALA.pptxHOA1&2 - Module 3 - PREHISTORCI ARCHITECTURE OF KERALA.pptx
HOA1&2 - Module 3 - PREHISTORCI ARCHITECTURE OF KERALA.pptx
 
UNIT 4 PTRP final Convergence in probability.pptx
UNIT 4 PTRP final Convergence in probability.pptxUNIT 4 PTRP final Convergence in probability.pptx
UNIT 4 PTRP final Convergence in probability.pptx
 
Hostel management system project report..pdf
Hostel management system project report..pdfHostel management system project report..pdf
Hostel management system project report..pdf
 
Computer Graphics Introduction To Curves
Computer Graphics Introduction To CurvesComputer Graphics Introduction To Curves
Computer Graphics Introduction To Curves
 
Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...
Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...
Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...
 
PE 459 LECTURE 2- natural gas basic concepts and properties
PE 459 LECTURE 2- natural gas basic concepts and propertiesPE 459 LECTURE 2- natural gas basic concepts and properties
PE 459 LECTURE 2- natural gas basic concepts and properties
 
Thermal Engineering -unit - III & IV.ppt
Thermal Engineering -unit - III & IV.pptThermal Engineering -unit - III & IV.ppt
Thermal Engineering -unit - III & IV.ppt
 

Polyester, Rice husk and Banana fibre as composites

  • 1. A PRESENTATION ON Polyester, Rice husk and Banana fibre as composites Presented by: Vinit Singh 2016PPE5370 Presented to: Dr. Mukesh Kumar Dept. of Mechanical Engineering 1
  • 3. DEFINATION • POLYESTER (AKA TERYLENE) IS A CATEGORY OF POLYMERS WHICH CONTAIN THE ESTER FUNCTIONAL GROUP IN THEIR MAIN CHAIN. “Long chain polymers chemically composed of at least 85% by weight of an ester and a dihydric alcohol and terephthalic acid”. The name “polyester” refers to the linkage of several monomers (esters) within the fiber.
  • 4. HISTORY • IN 1926, UNITED STATES-BASED E.I. DU PONT DE NEMOURS AND CO. BEGAN RESEARCH INTO VERY LARGE MOLECULES AND SYNTHETIC FIBERS • W.H. CAROTHERS, CENTERED ON WHAT BECAME NYLON, THE FIRST SYNTHETIC FIBER. • 1939-41, BRITISH RESEARCH CHEMISTS TOOK INTEREST IN THE DU PONT STUDIES AND CONDUCTED THEIR OWN RESEARCH IN THE LABORATORIES OF CALICO PRINTERS ASSOCIATION, LTD. THIS WORK RESULTED IN THE CREATION OF THE POLYESTER FIBER KNOWN IN ENGLAND AS TERYLENE. • IN 1946, DU PONT PURCHASED THE RIGHT TO PRODUCE THIS POLYESTER FIBER IN THE UNITED STATES. • THE COMPANY CONDUCTED SOME FURTHER DEVELOPMENTAL WORK, AND IN 1951, BEGAN TO MARKET THE FIBER UNDER THE NAME DACRON
  • 5. FORMS OF POLYESTER 1. FILAMENT 2. STAPLE 3. TOW 4. FIBERFILL
  • 6. USES OF DIFFERENT FORM IN DIFFERENT PLACES 1. IN THE FILAMENT FORM, EACH INDIVIDUAL STRAND OF POLYESTER FIBER IS CONTINUOUS IN LENGTH, PRODUCING SMOOTH-SURFACED FABRICS 2. IN STAPLE FORM, FILAMENTS ARE CUT TO SHORT, PREDETERMINED LENGTHS. IN THIS FORM POLYESTER IS EASIER TO BLEND WITH OTHER FIBERS 3. TOW IS A FORM IN WHICH CONTINUOUS FILAMENTS ARE DRAWN LOOSELY TOGETHER 4. FIBERFILL IS THE VOLUMINOUS FORM USED IN THE MANUFACTURE OF QUILTS, PILLOWS, AND OUTERWEAR
  • 8. STRUCTURE AND APPERANCE • COLOURLESS AND TRANSPARENT • SMOOTH AND LUSTURUOS • SHAPE AS WE REQIURE • SHINY GLASSROD LIKE
  • 9. POLYESTER FIBER CHARACTERISTICS STRONG RESISTANT TO STRETCHING AND SHRINKING RESISTANT TO MOST CHEMICALS QUICK DRYING CRISP AND RESILIENT WHEN WET OR DRY WRINKLE RESISTANT MILDEW RESISTANT ABRASION RESISTANT RETAINS HEAT-SET PLEATS AND CREASE EASILY WASHED
  • 10. DISTINGUISHING FORM OTHERS  DISTINGUISHING POLYESTERS FROM OTHER FIBERS: POLYESTER IS SOLUBLE IN HOT META CRESOL; HOWEVER ,UNLIKE ACETATE IT IS NOT SOLUBLE IN ACETONE, AND UNLIKE NYLON IT IS NOT SOLUBLE IN CONCENTRATED FORMIC ACID.
  • 11. POLYESTER BLENDS • POLYESTER AND COTTON 1. RESIST WRINKLES 2. RESIST STAINS 3. RETAIN SHAPE
  • 12. POLYESTER BLENDS • POLYESTER AND WOOL 1. WRINKLE RESISTANCE 2. SHAPE RETENTION 3. INCREASE DURABILITY
  • 13. POLYESTER BLENDS • POLYESTER AND RAYON 1. MORE DURABLE 2. SHAPE RETENTION 3. MORE RESILIENCE
  • 14. PROPERTIES DENIER: 0.5 – 15  TENACITY : DRY 3.5 - 7.0 : WET 3.5 - 7.0  ELONGATION AT BREAK : DRY 15 - 45 : WET 15 45%  MOISTURE REGAIN: 0.2-0.5%  SPECIFIC GRAVITY: 1.36 - 1.41%  ELASTIC RECOVERY : @2% =98 : @5% = 65  MELTING POINT : 260 - 270 DEGREE C  EFFECT OF SUNLIGHT : TURNS YELLOW, RETAINS 70 - 80 % TENACITY AT LONG EXPOSURE  RESISTANCE TO WEATHERING: GOOD  ROT RESISTANCE: HIGH  ALKALI RESISTANCE: DAMAGED BY CON ALKALI  ACID RESISTANCE: EXCELLENT  INSECTS: NO EFFECT 
  • 15. CHEMISTRY OF POLYESTER FIBER COOHHOOC + CH3OH COOCH3CH3OOC COOCH3CH3OOC + HOCH2CH2OH COOCH2CH2OHHOCH2CH2OOC CH3OH+ Terephthalic Acid Dimethyl Terephthalate Bis(2-Hydroxyethyl) Terephthlate Polyester Ethylene Glycol C O COCH2CH2O O C O OCH2CH2OC O Polymerization n
  • 16. OTHER PROPERTIES OF POLYESTER • FINENESS OF POLYESTER TEXTILE: FINENESS OF POLYESTER FIBER IS ALSO CONTROLLABLE. X-SECTIONAL SHAPE: NORMAL CROSS SECTIONAL SHAPE IS ROUND BUT IT IS ALSO MADE TRIANGULAR, ELLIPTICAL OR PENTAGONAL. NORMALLY IT IS WHITE BUT COULD BE OF ANY COLOR IF COLOR IS ADDED DURING SPINNING. EXTENSIBILITY: EXTENSION AT BREAK VARIES FROM 20% TO 30 %. GOOD RECOVERY FROM EXTENSION. DUE TO GOOD EXTENSION, STRENGTH AND FUNCTIONAL PROPERTY POLYESTER IS WIDELY USED AS SEWING THREAD IN THE GARMENT INDUSTRIES. RESILIENCY: POLYESTER TEXTILE SHOWS GOOD RESILIENCY PROPERTY. IT DOES NOT CREASE EASILY AND ANY UNDUE CREASE CAN BE RECOVERED EASILY. DIMENSIONAL STABILITY: POLYESTER FIBER IS DIMENSIONALLY STABLE. IT COULD BE HEAT-SET AT AROUND 200 DEGREE C. HEAT SET POLYESTER FIBER DOES NOT SHRINK OR EXTENDED. ACTION OF BLEACHING AGENTS: IT IS NOT DAMAGED BY THE ACTION OF BLEACHING
  • 19. INTRODUCTION • THE NATURAL FIBERS ARE RENEWABLE, NON-ABRASIVE, BIO-DEGRADABLE, POSSESS A GOOD CALORIFIC VALUE, EXHIBIT EXCELLENT MECHANICAL PROPERTIES AND ARE INEXPENSIVE. • THIS GOOD ENVIRONMENTAL FRIENDLY FEATURE MAKES THE MATERIALS VERY POPULAR IN ENGINEERING MARKETS SUCH AS THE AUTOMOTIVE AND CONSTRUCTION INDUSTRY. • THE BANANA FIBERS ARE WASTE PRODUCT OF BANANA CULTIVATION, THEREFORE WITHOUT ANY ADDITIONAL COST THESE FIBERS CAN BE OBTAINED FOR INDUSTRIAL PURPOSES. 19
  • 20. BANANA FIBER • BANANA PLANT NOT ONLY GIVES THE DELICIOUS FRUIT BUT IT ALSO PROVIDES TEXTILE FIBER, THE BANANA FIBER. • IT GROWS EASILY AS IT SETS OUT YOUNG SHOOTS AND IS MOST COMMONLY FOUND IN HOT TROPICAL CLIMATES. • ALL VARIETIES OF BANANA PLANTS HAVE FIBERS IN ABUNDANCE. • THESE FIBERS ARE OBTAINED AFTER THE FRUIT IS HARVESTED AND FALL IN THE GROUP OF BAST FIBERS. • THIS PLANT HAS LONG BEEN A GOOD SOURCE FOR HIGH QUALITY TEXTILES IN MANY PARTS OF THE WORLD, ESPECIALLY IN JAPAN AND NEPAL. 20
  • 21. PROPERTIES OF BANANA FIBER • BANANA FIBER IS SIMILAR TO THAT OF BAMBOO FIBER, BUT ITS FINENESS AND SPIN ABILITY IS BETTER. • THE CHEMICAL COMPOSITION OF BANANA FIBER IS CELLULOSE, HEMICELLULOSE, AND LIGNIN. • IT IS HIGHLY STRONG FIBER. • IT HAS SMALLER ELONGATION. • IT HAS GOT SHINY APPEARANCE DEPENDING UPON THE EXTRACTION & SPINNING PROCESS. • IT IS LIGHT WEIGHT. • IT ABSORBS AS WELL AS RELEASES MOISTURE VERY FAST. • IT IS BIO- DEGRADABLE AND HAS NO NEGATIVE EFFECT ON ENVIRONMENT AND THUS CAN BE CATEGORIZED AS ECO-FRIENDLY FIBER. • IT CAN BE SPUN THROUGH ALMOST ALL THE METHODS OF SPINNING INCLUDING RING 21
  • 22. COMPOSITION OF FEW COMMONLY USED NATURAL FIBERS 22
  • 23. METHOD OF PREPARATION • REQUIRED MATERIALS ARE: • BANANA FIBER • RESIN (POLYESTER, CAN BE USED MANY) • HARDENER (METHYL ETHYL KETONE PEROXIDE, MANY OTHERS CAN BE USED AS HARDENER) • FILLER (SILICON POWDER, MANY OTHER TYPE OF FILLERS CAN BE USED) • RELEASING AGENT Resin Hardene r Filler 23
  • 24. STEPS INVOLVED • THE BANANA FIBER IS OBTAINED FROM BANANA PLANT. • THE EXTRACTED BANANA FIBER FIRSTLY SUN DRIED AND THEN DRIED IN OVEN TO REMOVE WATER CONTENT PRESENT IN THE FIBER. • THEN BANANA FIBER OF DIFFERENT LENGTH IS MIXED WITH MATRIX MIXTURE WITH THEIR RESPECTIVE VALUES BY SIMPLE MECHANICAL STIRRING AND MIXTURE ARE SLOWLY POURED IN DIFFERENT MOULDS. • RELEASING AGENT IS USED ON MOULD SHEET WHICH GIVES EASE TO REMOVAL OF COMPOSITE FROM THE MOULD. • AFTER POURING IN TO THE MOULD IT IS HEATED TO 30°C FOR APPROXIMATELY 24 HOURS. • A CONSTANT LOAD IS APPLIED ON TO THE MOULD. 24
  • 25. COMPOSITION OF MATERIALS• RESIN-60% • HARDENER -10% • FILLER- 30% 25 Fabricated banana fiber reinforced composite
  • 26. INFLUENCE OF FIBER PARAMETERS ON TENSILE STRENGTH • THE MECHANICAL BEHAVIOR OF THE BANANA FIBER BASED EPOXY COMPOSITES DEPENDS ON FIBER PARAMETERS • THE TENSILE STRENGTH OF BANANA FIBER REINFORCED COMPOSITES INCREASES WITH INCREASE IN FIBER LENGTH AND LOADING. 26
  • 27. INFLUENCE OF FIBER PARAMETERS ON FLEXURAL STRENGTH • WHEN FIBER LENGTH INCREASES THE FLEXURAL STRENGTH OF THE FABRICATED COMPOSITES FIRST INCREASES UP TO 10 MM LENGTH AND THEN DECREASES. • WHEN FIBER LOADING INCREASE THEN FLEXURAL STRENGTH INCREASE UP TO FIBER LOADING 15% THEN DECREASES. • THE MAXIMUM FLEXURAL STRENGTH IS OBSERVED WHEN FIBER LENGTH IS 10 MM AND 27
  • 28. INFLUENCE OF FIBER PARAMETER ON IMPACT STRENGTH • THE IMPACT ENERGY IS INCREASES WITH INCREASE IN FIBER LENGTH. IT ALSO SHOW THAT THE IMPACT ENERGY INCREASES WITH INCREASES IN FIBER LOADING. • THE MAXIMUM IMPACT ENERGY ABSORBED BY THE MATERIAL 15 MM LENGTH OF FIBER AND 20% FIBER CONTENT. 28
  • 29. INFLUENCE OF FIBER PARAMETERS ON HARDNESS • THE HARDNESS VALUE INCREASES WITH INCREASE IN FIBER LENGTH AND IT IS MAXIMUM AT 10 MM FIBER LENGTH. • HOWEVER, WITH INCREASE OF FIBER LOADING HARDNESS VALUE INCREASES UP TO FIBER LOADING 15% THEN THE HARDNESS VALUE DECREASES. 29
  • 30. USES • AUTOMOBILE INDUSTRIES • BANANA FIBER COMPOSITE WALL • FLOOR TOPPING OF HOUSES • WINDOW APPLICATION • CONSTRUCTION INDUSTRIES 30
  • 31. REFERENCES • KULKARNI A. G., ROHATGI P. K., SATYANARAYANA K. G., SUKUMARAN K., PILLAI S. G. K., FABRICATION AND PROPERTIES OF NATURAL FIBER-REINFORCED POLYESTER COMPOSITES, COMPOSITES, 17 (1986), PP. 329-333. • MERLINI C., SOLDI V. , BARRA G. M. O., INFLUENCE OF FIBER SURFACE TREATMENT AND LENGTH ON PHYSICO-CHEMICAL PROPERTIES OF SHORT RANDOM BANANA FIBER-REINFORCED CASTOR OIL POLYURETHANE COMPOSITES, POLYMER TESTING, 30 (2011), PP. 833–840. • DHIEB H., BUIJNSTERS J. G., EDDOUMY F., VÁZQUEZ L., CELIS J.P., SURFACE AND SUB-SURFACEDEGRADATION OF UNIDIRECTIONAL CARBON FIBER REINFORCED EPOXY COMPOSITES UNDER DRY AND WET RECIPROCATING SLIDING, COMPOSITES PART A: APPLIED SCIENCE AND MANUFACTURING, 55 (2013), PP. 53–62. • HTTP://WWW.SCIENCEDIRECT.COM/SCIENCE/ARTICLE/PII/S1877705814033517 • HTTPS://WWW.RESEARCHGATE.NET/PUBLICATION/249356546_BANANA_FIBER_REINFORCED_POLYMER_COMPOSITES_- _A_REVIEW • WIKIPEDIA.ORG • GOOGLE IMAGES • GOOGLE SEARCH 31