| Customization: | Available |
|---|---|
| Material: | Polyester |
| Layers: | Single |
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Polyester mesh comes in a variety of sizes specified by mesh opening size (µ)and is suitable for applications in several industries. This monofilament, woven mesh possesses excellent qualities such as corrosion and moisture resistance, durability and elasticity. The fibers, woven to tight tolerances, create a uniform pore size, exceptional strength and dimensional stability. Polyester mesh is generally preferred over nylon mesh for most applications involving autoclave sterilization.
Each batch of SHARE's filter meshes undergoes a meticulous process involving at least twelve distinct steps, ensuring the ultimate production of high-quality filtering products.
The twelve steps of SHARE filter mesh production procedure are:
Yarn→Raw yarn inspection→Warping arranging→Drawing in heddle→Drawing in reed→Weaving→Initial survey→Washing→Heat setting treatment→Physical properties inspection→Products inspection→Product→(Prefabrated filter and screens if needed)→(Molded plastic filters if needed)
| Product Name | Precision polyester filter mesh/PET filter mesh |
| Manufacturer | Taizhou Share Filters Co. Ltd. |
| Brand | SHARE FILTERS |
| Material | Food grade polyester monofilament fiber |
| Color | white, yellow, black or customized |
| Weave type | plain woven, twill woven, dutch woven |
| Common width | 100cm, 127cm, 150cm, 160cm, 175cm, 183cm, 365cm or customized |
| Roll length | 30-100 mester or customized |
| Mesh Count/cm | DPP8T-DPP180T |
| Mesh Count/inch | 20 mesh/inch-460 mesh/inch |
| Thread diameter | 27-500 micron |
| Mesh Opening | 16um -2000 um |
| Thickness | 41-946um |
| Certificate | ISO19001 SGS ROHS |
| Samples | 3 meters free |
| Physical Characteristics | 1.Material : manufactured by 100% monofilament polyester yarn 2.Opening :the mesh with great precision exact and regular square holes 3.Dimensional :very good dimensional stability |
| Chemical properties | 1.Temperature : working temperature under 135ºC 2.Chemicals: no unwanted chemicals, no any chemicals treatment in the production process 3.Safe Grade: food grade |
| Precision Polyester Filter Mesh Specifications | |||||||
| Mesh count (per cm/inch) |
Type of weave (tw or pw) |
Thread diameter (microns) | Mesh opening (microns) | Overall fabric thickness (microns) | % Open area | Theoretical ink deposit (cm3/m2) |
Mesh Weight (gsm) |
| 8/20-300W | PW | 300 | 950 | 560 | 57.8 | 323.5 | 169 |
| 10/25-260W | PW | 260 | 739 | 498 | 54.6 | 272.0 | 158 |
| 12/30-140W | PW | 140 | 688 | 256 | 68.2 | 174.7 | 55 |
| 15/40-200W | PW | 200 | 465 | 353 | 48.6 | 171.5 | 141 |
| 18/45-180w | PW | 180 | 375 | 330 | 45.5 | 145.5 | 128 |
| 21/54-140W | PW | 140 | 333 | 250 | 49.0 | 122.5 | 96 |
| 24/60-120W | PW | 120 | 294 | 210 | 49.7 | 104.3 | 81 |
| 27/70-120W | PW | 120 | 249 | 210 | 45.3 | 95.0 | 91 |
| 30/76-120W | PW | 120 | 211 | 212 | 40.2 | 82.4 | 101 |
| 32/83-70W | PW | 70 | 240 | 117 | 58.7 | 68.7 | 37 |
| 32/83-100W | PW | 100 | 209 | 166 | 44.5 | 72.1 | 75 |
| 36/92-90W | PW | 90 | 183 | 147 | 43.3 | 64.9 | 68 |
| 36/92-100W | PW | 100 | 174 | 162 | 39.1 | 62.6 | 84 |
| 40/103-80W | PW | 80 | 166 | 133 | 44.1 | 58.6 | 60 |
| 43/110-80W | PW | 80 | 149 | 130 | 40.8 | 53.0 | 64 |
| 45/115-80W | PW | 80 | 138 | 130 | 38.7 | 50.3 | 67 |
| 48/123-80W | PW | 80 | 122 | 130 | 34.5 | 44.8 | 72 |
| 48/123-55W | PW | 55 | 151 | 90 | 52.8 | 47.5 | 34 |
| 51/131-70W | PW | 70 | 121 | 114 | 38.1 | 43.5 | 58 |
| 54/137-64W | PW | 64 | 115 | 103 | 38.7 | 39.8 | 51 |
| 61/156-64W | PW | 64 | 90 | 101 | 30.1 | 30.4 | 58 |
| 68/175-55W | PW | 55 | 85 | 87 | 33.5 | 28.4 | 48 |
| 68/175-64W | PW | 64 | 78 | 98 | 28.2 | 27.6 | 65 |
| 71/180-55W | PW | 55 | 79 | 90 | 31.5 | 28.4 | 51 |
| 77/195-48W | PW | 48 | 77 | 80 | 35.0 | 28.0 | 42 |
| 77/195-55W | PW | 55 | 67 | 87 | 26.5 | 23.3 | 55 |
| 82/206-48W | PW | 48 | 68 | 79 | 30.8 | 24.3 | 44 |
| 90/230-40W | PW | 40 | 68 | 65 | 37.6 | 24.4 | 33 |
| 90/230-48W | PW | 48 | 55 | 78 | 24.6 | 19.2 | 49 |
| 100/255-40W | PW | 40 | 57 | 64 | 32.5 | 21.1 | 37 |
| 110/280-34W | PW | 34 | 54 | 55 | 35.2 | 19.3 | 31 |
| 110/280-40W | PW | 40 | 47 | 65 | 26.6 | 17.3 | 40 |
| 120/305-34W | PW | 34 | 45 | 55 | 29.6 | 16.3 | 34 |
| 120/305-40W | PW | 40 | 37 | 64 | 20.1 | 13.0 | 44 |
| 130/330-34W | PW | 34 | 40 | 55 | 26.9 | 14.3 | 37 |
| 140/355-34W | PW | 34 | 31 | 55 | 19.4 | 10.6 | 39 |
| 150/380-34W | PW | 34 | 23 | 55 | 12.1 | 6.6 | 42 |
| 165/420-34W | PW | 34 | 23 | 62 | 13.9 | 8.6 | 46 |
| Heat Resistance | Softening point : 238-240ºC Melting point : 255-260ºC |
| Specific Gravity | 1.38 |
| Chemical Resistance | Highly resistant and shows little to no change after exposure to concentrated hydrochloric acid, 75% sulfuric acid, concentrated filtered nitric acid, 10% caustic soda solution, and 28% ammonia solution |
| Weather Resistance | Highly resistant and shows little to no change |
| Insect and Mold Resistance | Completely resistant |
| Artificial or Synthetic Fiber Chemical Resistance Comparison | ||||||||
| Fiber Type | Continuous Working Temp. | Max. Working Temp. | Filtration Characteristic | Abrasion Resistance | Hydrolysis Resistance | Acid Resistance | Alkalis Resistance | Oxidation Resistance |
| PVC | 75ºC | 80ºC | Good | Excellent | Excellent | Excellent | Excellent | Good |
| PP | 90ºC | 100ºC | Good | Good | Excellent | Excellent | Excellent | Poor |
| PA | 110ºC | 115ºC | Moderate | Excellent | Poort | Moderate | Good | Moderate |
| PAN Copolymer | 120ºC` | 130ºC | Good | Good | Good | Moderate | Moderate | Good |
| PET | 135ºC | 150ºC | Excellent | Excellent | Poor | Moderate | Poor | Good |
| m-Aramide | 180ºC | 220ºC | Excellent | Excellent | Moderate | Moderate | Moderate | Good |
| PPS | 190ºC | 200ºC | Excellent | Good | Excellent | Excellent | Excellent | Moderate |
| Polyimide | 240ºC | 280ºC | Excellent | Moderate | Good | Good | Moderate | Excellent |
| Polyertrafluoroethylene | 250ºC | 280ºC | Moderate | Good | Excellent | Excellent | Excellent | Excellent |
| Fiberglass | 250ºC | 280ºC | Moderate | Moderate | Excellent | Poort | Moderate | Excellent |
SHARE precision polyester filter mesh can be applied to, but is not limited to, the following industries:
1. Liquid Filtration
2. Dust Collection or Separation
3. Dry and Wet Filter Bags
4. Sifting
5. Milling
6. Automovie
7. Medical
8. Food
9. Pharmaceutical
10. White Goods
11. Injection Molding
12. Filter Belts
13. Loud Speaker and Micronphone Front
14. Water-proofing Acoustic Appliances
15. Interior Design
16. Clothing
17. Refining
18. Decoration
Our high-precision fabrics are used to produce everything from simple filter parts such as filter tapes, filter discs, filter flat shapes or more complex applications such as filter screens, filter bag, filter cartridges, pleated cartridges, tubular filter elements, molded plastic filters and more.
We design, develop and manufacture fabricated filters and injection molded plastic filters on request according to your specifications.
Our processing technologies: cold cutting/punching/slitting/stamping, heat slitting/cutting, ultrasonic stamping/slitting/pleating/welding/waves, laser cutting/slitting/stamping, insert/over injection molding.
Some of our standard&custom-made mesh filters examples:
Snapshot of our weaving workshops:
Keywords: Polyester Filter Mesh Polyester Screen Mesh Polyester Filter Screen Mesh Polyamide Filter Mesh Polymer Mesh Filter Micron Filter Fabric Polyester Sieve Material Micron Mesh Screen Polyester Particle Filter Polyester Fabric Mesh Filter Micro Filtration Fabric Precision Particle Filter Micron Mesh Filter Polymer Filtration Net Fine Polyester Sieve Polyester Filter Cloth Polyester Filter Fabric
1. Who are we?
Taizhou Share Filters Co., Ltd is a China-based factory established in 1983.
We specialize in filter media with rating from 3um to 2500um (woven filters), converting meshes filters into various sizes and shapes, and molding mesh with plastic to create different types of plastic filters.
2. How long does a quotation take?
In most cases, we respond within one working day. If something in RFQ need be confirmed, we will promptly notify you soon.
3. How quickly can I get my order finished?
The production lead time is dependent on the quantity. Typically, it takes 5 to 15 working days for us to complete mass production once you have placed the order.
4. What about your quality control?
Our production operators conduct self-inspections at every stage of the process. Additionally, we have spot inspections and final inspections carried out by our Quality Control (QC) team.
5. What kind of payment terms do you accept?
T/T and LC and more.
6. What's your largest advantage?
One of our core competencies is the production of high precision injection molded plastic filters with professional technical team and quality guarantee and management for more than 30 years.
7. Can plastic molded filter specifications be customized?
Absolutely, at SHARE, the materials, dimensions, shape, construction method, mesh size, and applications of the filters are all fully customizable to meet your specific requirements.
8. Do you need drawings for production?
If you have drawing (2D, 3D both available. 2D like PDF, CAD, JPG etc. 3D like STP, IGS, STL, SAT, PRT, IPT etc.) it'll be helpful for us to proceed with the production.
However, if you don't have any drawing, don't worry. SHARE can work with you to create a drawing based on a description or image of the filters you have in mind. We can get started without any drawings initially.
9. How do I know my design will be kept confidential?
At SHARE, we take confidentiality seriously. We are willing to sign and adhere to any non-disclosure or confidentiality agreement with our customers. Moreover, we have strict confidentiality policies within our factory, ensuring that no proprietary information is ever disclosed to any third party.
10. What are the common weaving types for plastic molded filters?
The most common weaving type is plain weave mesh, but we also utilize other options like twill weave mesh. Plain weave mesh is popular and affordable.
11. What situations can be anticipated in which plastic molded filters should be selected?
Plastic molding is better for mounting in the case of sandwiching. This is because it can be made without gaps in the shape of the mounting partner.
Plastic molding is preferable for mounting purposes, especially when sandwiching is required. This method allows us to create filters without any gaps to perfectly fit the mounting partner's shape.
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