Fibre Reinforced Plastic manufacturing methods
26,689 views
47 slides
Oct 30, 2015
Slide 1 of 47
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
About This Presentation
Composites manufacturing processes are complex, and involve combinations of the following physical processes:
1) Reinforcement Shaping
2) Resin Infusion
3) Composite Consolidation
Advantages and disadvantages of processing techniques
plastic composite manufacturing
Hand Lay-up
Spray up method
Filam...
Slide Content
FRP PROCESSING METHODS GEETHU C.THOMAS JEFF JOSE KESIYA GEORGE KRISHNAPRIYA M.P Group 3
IMPORTANT METHODS Hand Lay-up Spray up method Filament winding Match die molding Pultrusion Resin transfer molding Reaction injection molding
1)HAND LAY-UP METHOD
Hand Lay-Up is well suited for low volume production of product. This method can be used for both corrosion barrier and the structural portion. A mold must be used for hand lay-up parts unless the composite is to be joined directly to another structure. The mold can be as simple as a flat sheet or have infinite curves and edges. For some shapes, molds must be joined in sections so they can be taken apart for part removal after curing.
Reinforcement fibers can be cut and laid in the mold. It is up to the designer to organize the type, amount and direction of the fibers being used. Resin must then be catalyzed and added to the fibers. A brush or roller can be used to impregnate the fibers with the resin. The lay-up technician is responsible for controlling the amount of resin and the quality of saturation .
Hand lay‑up : (1) mold is treated with mold release agent; (2) thin gel coat (resin) is applied, to the outside surface of molding; (3) when gel coat has partially set, layers of resin and fiber are applied, the fiber is in the form of mat or cloth; each layer is rolled to impregnate the fiber with resin and remove air; (4) part is cured; (5) fully hardened part is removed from mold.
Materials used for hand layup Resins: Any, e.g. epoxy, polyester, vinyl ester, phenolic . Fibres : Any, although heavy aramid fabrics can be hard to wet-out by hand.
Advantages: i ) Widely used for many years. ii) Simple principles to teach. iii) Low cost tooling, if room-temperature cure resins are used. iv) Wide choice of suppliers and material types. v) Higher fibre contents, and longer fibers than with spray lay-up.
Disadvantages Resin mixing, laminate resin contents, and laminate quality are very Dependent On The Skills of laminators. Low resin content laminates cannot usually be achieved without the incorporation of excessive quantities of voids. ii) Health and safety considerations of resins. The lower molecular weights of hand lay-up resins generally means that they have the potential to be more harmful than higher molecular weight products. The lower viscosity of the resins also means that they have an increased tendency to penetrate clothing etc.
iii) Resins need to be low in viscosity to be workable by hand. This generally compromises their mechanical/thermal properties due to the need for high diluents levels.
Generally large in size but low in production quantity - not economical for high production Applications : Boat hulls Swimming pools Large container tanks Movie and stage props Other formed sheets The largest molding ever made was ship hulls for the British Royal Navy: 85 m (280 ft) long
2)Spray up method
Fibre is chopped in a hand-held gun and fed into a spray of catalysed resin directed at the mould. The deposited materials are left to cure under standard atmospheric conditions. Materials Options: Resins: Primarily polyester. Fibres: Glass roving only.
Advantages: Continuous process Any materials can be used as mold. Error can be corrected by re-spraying. Disadvantages: Slow. inconsistency. No control of fiber orientation. Only one side finished. Environmental unfriendly .
3) PULTRUSION
Fibres are pulled from a creel through a resin bath and then on through a heated die. The die completes the impregnation of the fibre, controls the resin content and cures the material into its final shape as it passes through the die. This cured profile is then automatically cut to length. Fabrics may also be introduced into the die to provide fibre direction other than at 0°. Pultrusion is a continuous process, producing a profile of constant cross-section, a variant known as ' pulforming ' allows for some variation to be introduced into the cross-section.
Main Advantages: i ) This can be a very fast, and therefore economic, way of impregnating and curing materials. ii) Resin content can be accurately controlled. iii) Fibre cost is minimised since the majority is taken from a creel. iv) Structural properties of laminates can be very good since the profiles have very straight fibres and high fibre volume fractions can be obtained. v) Resin impregnation area can be enclosed thus limiting volatile emissions.
Main Disadvantages: i ) Limited to constant or near constant cross-section components ii) Heated die costs can be high. Typical Applications : Beams and girders used in roof structures, bridges, ladders, frameworks.
4) FILAMENT WINDING
This process is primarily used for hollow, generally circular or oval sectioned components, such as pipes and tanks. Fibre tows are passed through a resin bath before being wound onto a mandrel in a variety of orientations, controlled by the fibre feeding mechanism, and rate of rotation of the mandrel.
Main Advantages i ) This can be a very fast and therefore economic method of laying material down. ii) Resin content can be controlled by metering the resin onto each fibre tow through nips or dies. iii) Fibre cost is minimised since there is no secondary process to convert fibre into fabric prior to use. iv) Structural properties of laminates can be very good since straight fibres can be laid in a complex pattern to match the applied loads.
Main Disadvantages i ) The process is limited to convex shaped components. ii) Fibre cannot easily be laid exactly along the length of a component. iii) Mandrel costs for large components can be high. iv) The external surface of the component is unmolded, and therefore cosmetically unattractive. v) Low viscosity resins usually need to be used with their attendant lower mechanical and health and safety properties.
5) Resin transfer moulding
Resin transfer molding is a closed molding process In this technique, as the name indicates, resin is transferred over the already placed reinforcement Reinforcement in terms of either woven mat or strand mat form is placed on the surface of lower half mold .
A release gel is applied on the mold surface for easy removal of the composite. The mold is properly closed and clamped. The clamping can be done either perimeter clamping or press clamping mechanism The resin is pumped into the mold through ports and air is displaced through other vents After curing, the mold is opened and composite product is taken out
Raw materials
Advantage Composite part produced with this method has good surface finish on both side surface of the product. Any combination of reinforced materials (including 3D) in any orientation can be achieved. Fast cycle time can be achieved through temperature control tooling device. Process can be manual control, semi-automated or highly automated. Composite part thickness is uniform which is determined by the mold cavity. The process does not require high injection pressure
Disadvantages Mould cavity limits the size of the composite. High tooling cost. There is limitation on reinforcing materials due to the flow and resin saturation of fibres.
6) Reaction injection moulding Reaction injection molding ( RIM ) is similar to injection molding except thermosetting polymers are used, which requires a curing reaction to occur within the mold .
First, the two parts of the polymer are mixed together. The mixture is then injected into the mould under high pressure using an impinging mixer . The mixture is allowed to sit in the mole long enough for it to expand and cure . If reinforcing agents are added to the mixture then the process is known as reinforced reaction injection moulding ( RRIM ). Common reinforcing agents include glass fibers and mica . This process is usually used to produce rigid foam automotive panels
Advantages and disadvantages Reaction injection molding can produce strong, flexible, lightweight parts which can easily be painted It also has the advantage of quick cycle times compared to typical vacuum cast materials . The bi-component mixture injected into the mold has a much lower viscosity than molten thermoplastic polymers, therefore large, light-weight, and thin-walled items can be successfully RIM processed. This thinner mixture also requires less clamping forces, which leads to smaller equipment and ultimately lower capital expenditures . Another advantage of RIM processed foam is that a high-density skin is formed with a low-density core. The disadvantages are slow cycle times, compared to injection moulding, and expensive raw materials.
7) Matched die forming Matched-die molding ( Acuan Terpadan ) -The composite material is pressed between heated matched dies -Pressure required depends on the flow characteristics of the feed materials - The feed materials flows into the contours of the mould and cures at high temp.
There are three types of matched die forming Perform moulding Sheet molding compound Dough/bulk molding compound (DMC) These three molding technique utilize same type of high pressure molding equipment but differ in the form of the material that is placed inside the mold to form the part
Sheet molding compound (SMC) Sheet of resin-fiber blend which contains additives (curing agent, release agent & pigments). Clean to be used & give good consistency in properties b) Dough molding compound (DMC) Blends (in dough forms) of all the necessary constituents (but only short fibers are used)
Sheet molding compound (SMC) SMC moulding is a sheet material that is made by chopped glass fibres on to a sheet of plastic film on which a resin- initator -filler mixture has been doctored Another film which also has the resin mixture applied onto it, is placed on the top and then the sandwich of resin mixture and the chopped glass is passed between the compaction rolls to wet the fibres and mix the constituents
The material is then cured and rolled up for shipment A typical SMC incorporates about 30-50%fibres ,25%resin,25-45%filler
Bulk moulding compound
BMC is a dough like mixture of chopped fibreglass resin initiator and fillers that has a composition similar to that of SMC The resulting material is called a premix The fibreglass mixture is about 5-10% lower than SMC BMC is moulded by placing a weighed amount of material onto the lower mould The mod are then closed under pressure ,temperature
Advantages Both interior and exterior surfaces are finished Production rate can be high Labour cost are low Minimum trimming of parts are moulded Product has good mechanical properties and closed part tolerance
Disadvantages More equipment is needed than layup Mould and tooling are costly than layup moulds Transparent parts are not possible with SMC and BMC Moulding problems may cause surface imperfections SMC and BMC have limited shelf life
REFERENCE Handbook of Composite Reinforcements - By Stuart M. Lee http://www.frprawmaterial.com/frp-process.html Handbook of Composite Fabrication- by G Akovali Introduction to Composite Materials and Structures Nachiketa Tiwari Indian Institute of Technology Kanpur
Categories
GeneralDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 26,689
- Slides 47
- Favorites 57
- Age 3685 days
Related Slideshows
22
Pray For The Peace Of Jerusalem and You Will Prosper
RodolfoMoralesMarcuc
30 views
26
Don_t_Waste_Your_Life_God.....powerpoint
chalobrido8
32 views
31
VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf
JaiJai148317
30 views
14
Fertility awareness methods for women in the society
Isaiah47
29 views
35
Chapter 5 Arithmetic Functions Computer Organisation and Architecture
RitikSharma297999
26 views
5
syakira bhasa inggris (1) (1).pptx.......
ourcommunity56
28 views