中文简体
English
15 clicks
The automotive industry is the largest application field for PA610, accounting for the highest proportion
PA610 is the core material for the oil, gas, and transmission systems in automobiles. PA610 is the preferred choice for oil-resistant components in cars and is also a mainstay for replacing some metals. Specific examples include:
Fuel system: fuel pipeline, fuel distribution pipe, fuel pump housing/impeller, fuel tank sealing ring, oil filter bracket;
Brake/Hydraulic System: Brake pipelines, hydraulic oil pipes, brake valve cores, clutch pushrods, hydraulic seals;
Transmission/Interior Structure: Gears (door lock gears, seat adjustment gears), bearing cages, universal joint bushes, door buckles (high wear-resistant type), window lift rails, seat belt webbing buckles, low moisture absorption precision parts around the engine.
Core reason: automotive oil environment + engine compartment temperature ranging from 80 to 120℃ + long-term friction. PP cannot withstand oil, softens under high temperatures, and has poor wear resistance, resulting in cracking, deformation, and oil leakage upon use.
Electronic and electrical industry
Create structural components that are precise, high-temperature resistant, insulated, and durable for insertion and extraction, while maintaining their dimensions in humid environments. Specific components:
Connector types: precision connectors, terminal blocks, aviation plugs, cable clamps, USB interface housings (industrial grade);
Framework/Coil Type: Motor coil framework, transformer framework, inductor framework;
Others: Insulated terminals, internal components of circuit breakers, switch contact bases, and sheaths for wires and cables (temperature and wear-resistant types).
Core reason: Electronic components require precise tolerances, insulation, and short-term temperature resistance above 150℃. PP lacks rigidity and is prone to deformation at high temperatures. Using PP for precision components can lead to jamming during insertion and extraction, as well as dimensional deviations.
Machinery/Hardware Industry [Wear-resistant and Self-lubricating Core Scenario]
PA610, with its inherent self-lubricating properties, high fatigue resistance, and wear resistance, is an excellent material for replacing brass/bronze in wear-resistant parts. It can be used even without oil lubrication. Specific parts include:
Transmission wear parts: various micro gears, rollers, guide rail sliders, bearing sleeves, bearing shells, worms, and racks;
Sealing/fastening categories: wear-resistant sealing rings, mechanical buckles, lock nuts, screw protectors, and coupling spacers;
General structural components: shuttles for textile machinery, bearings for spinning machines, roller sleeves for printing machines, and chain guides for conveyor equipment.
Daily necessities / light industry (only high-end models, with PP making affordable models)
PA610 is exclusively used for high-end components with high requirements, long lifespan, and wear resistance in civilian applications. These components are produced in small quantities but at a high unit price. Specifically:
High-end zippers: nylon zipper teeth as an alternative to metal zippers (made of PA610, which is non-whitening, non-deformable, wear-resistant, and smooth-running, specifically designed for luggage and high-end apparel);
Brush wire types: industrial brush wire, toothbrush wire (stiff and wear-resistant, not prone to deformation), cleaning brush wire;
Others: Trolley guides for high-end luggage, inner plugs for vacuum cups (temperature resistance + sealing), precision components for pen barrels.
Tube/Profile Industry
We specialize in manufacturing specialized pipes, not general-purpose pipes. Specifically, we produce oil-resistant pipes, high-pressure gas pipes, hydraulic hoses, weak acid/weak alkali transfer pipes for chemical applications, as well as extruded wear-resistant profiles (such as guide rails and square bars).
II. Specific application scenarios of PP (advantageous scenarios for PP, where there is no need to switch to PA610 due to high cost + excess performance, resulting in extremely low cost-effectiveness)
PP is the king of general-purpose plastics, ranking first in global production and boasting extremely low cost (PA610 costs 1.8~2.5 times more than PP). With a density of 0.90~0.91g/cm³, it is the lightest general-purpose plastic. Its core applications include oil-free, medium and low temperature (≤80℃), no heavy load, lightweight requirements, bending resistance, food contact, mass production, and low cost scenarios. It covers industrial, civilian, food, and packaging applications, with a wider range of applications than PA610. It is also the most comprehensive version in the industry, covering all specific categories in different fields:
Supplementary: PP is divided into 3 categories, with subdivisions in applications: homopolymer PP (high rigidity, brittle) → used for hard shells and plates; copolymer PP (good toughness, impact resistance, unbreakable even after numerous folds, commonly known as "fold-resistant plastic") → used for buckles, hinges, and thin-walled parts; glass fiber reinforced PP (enhanced rigidity, heat resistance up to 100℃) → used for automotive interior hardware, the only type of PP that can barely compete with PA610, but still inferior in wear resistance/oil resistance.
Food contact category [PP is the primary core scenario with unique advantages, while PA610 has almost no food applications]
PP is the only food-grade plastic that can be microwave-heated (FDA/GB food-grade certification), being non-toxic, odorless, moisture-resistant, and resistant to low temperatures (not brittle at -20℃). PP is the preferred choice for all food plastic components. Specific components include:
Disposable food packaging: microwave meal boxes, takeout packaging boxes, yogurt cups, jelly cups, milk tea cup lids, straws, and instant noodle bowl liners;
Household food utensils: crisper boxes, lunch boxes, water cups, feeding bottles, spoons and forks, cutting boards, draining baskets, oil containers, and seasoning bottles;
Food processing equipment: juicer inner liner, soybean milk maker cup body, rice cooker inner liner shell, microwave oven inner liner, food conveyor belt.
The automotive industry is the second largest application area for polypropylene (PP), serving as the "main force for lightweight and low-cost" in automobiles, accounting for over 30% of the entire vehicle
PP in automobiles serves as non-core structural components for both interior and exterior decorations, avoiding contact with oil and high-temperature core areas. Its primary features are weight reduction, low cost, and ease of molding. Specific components include:
Interior parts (up to): instrument panel, door panel lining, pillar trim, ceiling handle, glove box, storage box, air conditioning vents, seat side panels, carpet trim strip;
Exterior parts: bumper skin, rearview mirror housing, door trim strip, luggage rack base, fender;
Functional components: battery casing, coolant reservoir, air conditioning ventilation duct, wiper bracket, trunk lid;
Key point: In automobiles, glass fiber reinforced PP will replace a small amount of PA610 for lightweight structural components (such as ordinary buckles), but PP cannot completely replace PA610 for oil-resistant parts.
Daily necessities/household items (PP's absolute domain, found in every household, with the largest production volume)
All components are low-cost, mass-produced civilian parts. The core requirements are lightweight, good toughness, shock resistance, and bending resistance. Specific components include:
Storage items: storage boxes, organizing cabinets, drawers, clothes racks, shelving units, trash cans, washbasins, and buckets;
Furniture: plastic chairs, stools, coffee table panels, wardrobe handles, hinges/hinges (PP's folding advantage, repeatedly opening and closing without breaking);
Small items: slippers, toothbrush handle (affordable), comb, pen holder, folder, binder, file box, toys (Lego-style building blocks, plastic dolls).
Electronic and electrical industry (PP used as "non-precision, non-high temperature, low-cost housing/insulation parts")
PP has good insulation, moisture resistance, and low cost, but its rigidity and heat resistance are inferior to those of PA610. Therefore, it is only used for medium and low-end accessories without precision requirements. Specific parts include:
Shells: ordinary socket shell, strip socket shell, charger shell, electric fan shell, humidifier shell, table lamp base;
Functional parts: fan blades, motor end cover, junction box (outdoor waterproof type), cable sheath (low-voltage type), insulating gasket, switch housing.
Comparison: PA610 is used for precision connectors in electronics, while PP is used for ordinary casings, with a clear division of labor.
Pipes / Profiles / Films (the three pillar applications of PP, covering both industrial and civilian sectors)
PP exhibits excellent extrusion formability, a field where PA610 cannot compete at all, and this is also the core production capacity area of PP:
Pipe materials: water supply and drainage pipes (domestic cold water pipes), sewage pipes, floor heating pipes, acid and alkali resistant pipes for chemical use, and farmland irrigation pipes;
Thin films: food wrap, supermarket shopping bags, express delivery bags, mulching films, greenhouse films, packaging films (90% of all thin and light plastic films are PP/PE);
Profile types: plastic sheets, corrugated pipes, wire trays, skirting boards, decorative strips.
Mechanical / Chemical industry (PP used to make "corrosion-resistant, light-load, frictionless" containers / accessories)
PP is resistant to most chemicals except concentrated acids and alkalis, and has good solvent resistance, but it is not wear-resistant. Therefore, it is used for frictionless anti-corrosion parts. Specifically:
Chemical containers: acid and alkali storage tanks, chemical buckets, reagent bottles, plastic pump bodies (light load), valve housings;
Mechanical components: Light-load bracket, frictionless buckle, protective cover, equipment housing (non-precision type).
III. [Key Point] In the same application scenario, the "model selection boundary" between PA610 and PP (the most practical!)
Many times, you will encounter parts of the same type, some using PA610 and some using PP. The core lies in these few judgment criteria. As long as one of them is met, PA610 must be chosen; if none of them are met, PP can be chosen without hesitation. This is the industry's ironclad rule for selection, with no exceptions:
The criteria for selecting PA610 (meeting any one of them is sufficient)
The parts come into contact with oily media such as oil, grease, hydraulic oil, fuel, and lubricating oil;
The working environment temperature is ≥90℃ for a long time and ≥120℃ for a short period of time (such as around engines and inside high-temperature equipment);
The parts have friction, rotation, and sliding (gears, bearings, guide rails, rollers), and require wear resistance/self-lubrication;
The part is a precision structural component with high requirements for dimensional tolerances, and it is used in a humid environment (PA610 has low moisture absorption and maintains its dimensions);
The parts, which bear continuous load and impact load, require high strength and high fatigue resistance (such as automotive transmission parts).
The criteria for selecting PP (meeting any one of them is sufficient)
The parts need to be food-contact, microwave-safe, and medical-grade non-toxic (a unique advantage of PP);
The parts need to be repeatedly bent, opened, and closed (hinges, hinged pages, and buckles), and are required to be "unbreakable even after hundreds of folds";
Pursue ultimate lightweight, ultimate low cost, and mass production (such as daily necessities, disposable packaging);
The working environment is an ordinary structural component with a temperature not exceeding 80℃, free of oil, friction, and heavy loads;
The parts are made of film, tubing, and foam (PP has advantages in molding process, which PA610 cannot achieve).
The gray area in the middle (choose one of the two)
There is only one scenario: ordinary buckles/brackets/casings under normal temperature, oil-free, friction-free, and light load conditions. In this case:
Limited budget → choose glass fiber reinforced PP (highest cost-effectiveness);
If you require more stable dimensions and a longer lifespan, choose PA610 (it is more expensive, but its durability is doubled).
IV. Supplement: Application extensions of the two modified materials (adding to excellence, a must-see for model selection)
PA610 modification: glass fiber reinforced PA610 (with 15%/30% glass fiber), with enhanced rigidity, heat resistance, and strength, suitable for precision parts around automobile engines; toughened PA610, with improved low-temperature toughness, suitable for automobile parts in low-temperature environments in the north;
PP modification: Glass fiber reinforced PP (with 20%/30% glass fiber) is the only type of PP that can "leapfrog" others. It can withstand heat up to 100℃, and its rigidity is close to that of low-specification PA610. Its price is only half of that of PA610, making it the best affordable alternative to PA610. However, its oil resistance and wear resistance are still poor, so it can only be used for light-load parts.
Summary: Distinguish the applications of the two in one sentence
PA610: It is an "industrial hard rock", specializing in tasks that PP cannot handle, such as wear resistance, oil resistance, high temperature resistance, and high strength. It is only used for core components, which are expensive but irreplaceable;
PP: It is a "versatile and affordable material" that covers all scenarios requiring low cost, lightweight, bend resistance, and food-grade properties. It has a wide range of applications and offers excellent value for money.
There is no distinction between the two in terms of quality; they simply perform different functions. This is why both materials are in constant demand within the industry and will never be replaced by each other.
