Полиэтилен против Полипропилена: Руководство по уровням марок для переработчика

Both polyethylene and polypropylene land in your warehouse as off-white pellets with a density near 0.91 and a single MFI on the COA. The pellets tell you almost nothing about which one belongs in your part.
2. A converter choosing between the two isn’t really picking a material family. The choice is decided by the part’s single most demanding requirement — service temperature, low-temperature impact, stiffness, clarity, or chemical contact. Each requirement points to a specific sub-grade and MFI band, not just “PE” or “PP.”
3. How Polyethylene and Polypropylene Differ on the Spec Sheet
4. Polypropylene runs stiffer and hotter; polyethylene runs tougher and colder. PP holds a melt point of 165-175 °C against PE’s 105-130 °C, carries a higher flexural modulus, and resists solvents and stress cracking better. PE answers back with impact toughness that survives to roughly -80 °C, where PP homopolymer turns brittle near 0 °C.
5. That family-level verdict is accurate, and it resolves nothing for a real part. The spread inside each family is wide enough to swallow the difference between them.
6. Property (ASTM)
7. Polypropylene
8. Polyethylene
9. Density, D792
10. Melt point
11. 165-175 °C
12. 105-130 °C
13. Flexural modulus, D790
14. 13,000-25,000 psi (90-170 MPa)
15. 29,000-174,000 psi (200-1,200 MPa), LDPE→HDPE
16. Notched Izod, D256
17. 21-747 J/m (homo→impact)
18. LDPE no-break, HDPE 1.3 ft-lb/in
19. Brittleness onset
20. ~0 °C (homopolymer)
21. to ~-80 °C (HDPE)
22. ESCR
23. excellent
24. poor (LDPE) to excellent (HDPE)
25. Read the impact row before anything else. PP’s notched Izod runs from a brittle 21 J/m homopolymer to a 747 J/m impact copolymer — a 35-fold internal range that overlaps deep into PE territory.
26. The family name is a starting point. The sub-grade is the answer.
27. How the PP and PE Sub-Grades Differ
28. Each family fans out across a property range that the family label hides, and the sub-grade choice often decides the part more than the PE-versus-PP line does. Three PP grades and three PE grades carry the real decision variables.
29. On the PP side, the divider is ethylene comonomer content:
30. — maximum stiffness and the highest melt point, but a glass transition near 0 °C makes it brittle in the cold. This is monofilament, woven-bag tape, and rigid injection work. A homopolymer monofilament grade like PetroChina T30S sits here.
31. — trades some stiffness for clarity, heat-sealability, and a lower melt point. This is the PP-R hot-and-cold water pipe grade; PetroChina Dushanzi T4401 is the typical reference, with Sinopec equivalents in a similar MFI band.
32. — the rubber phase keeps it tough at low temperature. Freezer parts, automotive, and cold-service injection live here.
33. On the PE side, the divider is density and chain branching:
34. LDPE (0.910-0.940)
35. — heavily branched, soft, flexible, poor stress-crack resistance. Film, bags, liners.
36. LLDPE (0.915-0.940)
37. — a linear backbone with short branches delivers better tear and puncture resistance plus good ESCR at the same density. Stretch and agricultural film. A grade like LL0209AA outperforms LDPE on puncture despite the overlapping density.
38. HDPE (0.941-0.970)
39. — tightly packed, stiffest PE, excellent stress-crack resistance. Its flexural modulus of 174,000 psi is roughly six times LDPE’s 29,000 psi and rivals PP. Pressure pipe (PE100, such as TUB121N3000) and blow molding.
40. The within-family numbers prove the point. HDPE is six times stiffer than LDPE, and impact copolymer PP carries up to ten times the notched impact of homopolymer. Treating LLDPE and LDPE as interchangeable because both are low-density is the single most common selection error here, and it costs film converters real puncture failures.
41. Choosing Polyethylene or Polypropylene by the Part’s Governing Requirement
42. Start with the part’s single most demanding requirement and let it pick the sub-grade. One requirement governs; the rest are constraints you check afterward.
43. Service temperature
44. — for hot-fill, steam, or hot-water duty, PP wins outright: homopolymer for the highest heat-deflection temperature, or random copolymer for PP-R pipe. PE’s maximum operating temperature tops out near 71 °C (LDPE) to 82 °C (HDPE), so it’s off the table for anything hot.
45. Low-temperature impact
46. Stiffness and rigidity
47. — HDPE or PP homopolymer, both far above LDPE’s 29,000 psi flexural modulus. If the part also has to take cold impact, that conflict is exactly why impact copolymer exists.
48. — random copolymer PP is the clearest option in this set. HDPE reads translucent-to-milky, so it loses on any see-through part.
49. Chemical contact
50. — PP carries broad solvent resistance and very high stress-crack resistance; industry estimates put its ESCR roughly 20-100× that of HDPE. That suits PP to aggressive solvent and acid contact, while HDPE earns pipe duty only because PE100 grades are bimodal-engineered specifically to raise ESCR.
51. The processing method then sets the MFI band — high MFI to fill thin-wall injection and blow molds, low MFI for pipe and extrusion. One trap on the COA: a PP MFI is measured at 230 °C/2.16 kg and a PE MFI at 190 °C/2.16 kg, so the two numbers are not directly comparable across families.
52. Read the test condition, not just the number. MFI alone also won’t tell you whether a grade draws clean — you need the molecular-weight distribution behind it. Once the family and sub-grade are set, the PP grade-pick narrows further across
53. homopolymer, random, and impact options
54. Telling PE from PP at Incoming Inspection.

A converter choosing between the two isn’t really picking a material family. The choice is decided by the part’s single most demanding requirement — service temperature, low-temperature impact, stiffness, clarity, or chemical contact. Each requirement points to a specific sub-grade and MFI band, not just “PE” or “PP.”
How Polyethylene and Polypropylene Differ on the Spec Sheet
Polypropylene runs stiffer and hotter; polyethylene runs tougher and colder. PP holds a melt point of 165-175 °C against PE’s 105-130 °C, carries a higher flexural modulus, and resists solvents and stress cracking better. PE answers back with impact toughness that survives to roughly -80 °C, where PP homopolymer turns brittle near 0 °C.
That family-level verdict is accurate, and it resolves nothing for a real part. The spread inside each family is wide enough to swallow the difference between them.
Property (ASTM)
Polypropylene
Polyethylene
Density, D792
Melt point
165-175 °C
105-130 °C
Flexural modulus, D790
13,000-25,000 psi (90-170 MPa)
29,000-174,000 psi (200-1,200 MPa), LDPE→HDPE
Notched Izod, D256
21-747 J/m (homo→impact)
LDPE no-break, HDPE 1.3 ft-lb/in
Brittleness onset
~0 °C (homopolymer)
to ~-80 °C (HDPE)
ESCR
excellent
poor (LDPE) to excellent (HDPE)
Read the impact row before anything else. PP’s notched Izod runs from a brittle 21 J/m homopolymer to a 747 J/m impact copolymer — a 35-fold internal range that overlaps deep into PE territory.
The family name is a starting point. The sub-grade is the answer.
How the PP and PE Sub-Grades Differ
Each family fans out across a property range that the family label hides, and the sub-grade choice often decides the part more than the PE-versus-PP line does. Three PP grades and three PE grades carry the real decision variables.
On the PP side, the divider is ethylene comonomer content:”

How Polyethylene and Polypropylene Differ on the Spec Sheet

Polypropylene runs stiffer and hotter; polyethylene runs tougher and colder. PP holds a melt point of 165-175 °C against PE’s 105-130 °C, carries a higher flexural modulus, and resists solvents and stress cracking better. PE answers back with impact toughness that survives to roughly -80 °C, where PP homopolymer turns brittle near 0 °C.

That family-level verdict is accurate, and it resolves nothing for a real part. The spread inside each family is wide enough to swallow the difference between them.

Property (ASTM)PolypropylenePolyethylene
Density, D7920.89-0.910.91-0.97
Melt point165-175 °C105-130 °C
Flexural modulus, D79013,000-25,000 psi (90-170 MPa)29,000-174,000 psi (200-1,200 MPa), LDPE→HDPE
Notched Izod, D25621-747 J/m (homo→impact)LDPE no-break, HDPE 1.3 ft-lb/in
Brittleness onset~0 °C (homopolymer)to ~-80 °C (HDPE)
ESCRexcellentpoor (LDPE) to excellent (HDPE)

Read the impact row before anything else. PP’s notched Izod runs from a brittle 21 J/m homopolymer to a 747 J/m impact copolymer — a 35-fold internal range that overlaps deep into PE territory.

The family name is a starting point. The sub-grade is the answer.

How the PP and PE Sub-Grades Differ

Each family fans out across a property range that the family label hides, and the sub-grade choice often decides the part more than the PE-versus-PP line does. Three PP grades and three PE grades carry the real decision variables.

On the PP side, the divider is ethylene comonomer content:

  • Homopolymer (0% ethylene) — максимальная жёсткость и самая высокая температура плавления, но стеклование около 0 °C делает его хрупким на холоде. Это мононить, лента из тканой сетки и жёсткое литьё под давлением. Сорт гомополимерной мононити, такой как PetroChina T30S, находится здесь.
  • Статистический сополимер (1-7% этилен) — жертвует некоторой жёсткостью ради прозрачности, термосвариваемости и более низкой температуры плавления. Это марка PP-R для труб горячего и холодного водоснабжения; типичным эталоном является PetroChina Dushanzi T4401, с аналогами Sinopec в аналогичном диапазоне MFI.
  • Impact / block copolymer (5-15% ethylene) — резиновая фаза сохраняет ударную вязкость при низких температурах. Детали для морозильников, автомобилестроение и литьё для холодного применения находятся здесь.

Со стороны ПЭ разделителем являются плотность и разветвлённость цепи:

  • LDPE (0,910-0,940) — сильно разветвлённый, мягкий, гибкий, низкая стойкость к растрескиванию под напряжением. Плёнка, пакеты, вкладыши.
  • LLDPE (0,915-0,940) — линейный остов с короткими ответвлениями обеспечивает лучшую стойкость к разрыву и проколу, а также хорошую ESCR при той же плотности. Стретч- и сельскохозяйственная плёнка. Сорт, такой как LL0209AA, превосходит LDPE по стойкости к проколу, несмотря на перекрывающуюся плотность.
  • HDPE (0,941-0,970) — плотно упакованный, самый жёсткий ПЭ, отличная стойкость к растрескиванию под напряжением. Его модуль упругости при изгибе 174 000 psi примерно в шесть раз выше, чем у LDPE (29 000 psi), и сопоставим с ПП. Напорные трубы (PE100, например TUB121N3000) и выдувное формование.

Цифры внутри семейства доказывают это. HDPE в шесть раз жёстче LDPE, а ударопрочный сополимер ПП имеет в десять раз большую ударную вязкость с надрезом, чем гомополимер. Рассматривать LLDPE и LDPE как взаимозаменяемые только потому, что оба имеют низкую плотность, — самая распространённая ошибка выбора здесь, и она приводит к реальным отказам плёнки на прокол.

Stiffness and cold-toughness spread of polyethylene and polypropylene sub-grades<br>

Выбор полиэтилена или полипропилена по основному требованию к детали

Начните с самого требовательного требования к детали и позвольте ему выбрать подкласс. Одно требование является основным; остальные — ограничения, которые вы проверяете после.

  • Температура эксплуатации — для горячего розлива, пара или горячей воды ПП выигрывает однозначно: гомополимер для максимальной температуры теплостойкости или статистический сополимер для труб ПП-R. Максимальная рабочая температура ПЭ достигает около 71 °C (ПЭНП) до 82 °C (ПЭВП), поэтому он не подходит для горячих сред.
    2. Ударная вязкость при низких температурах
    3. Жесткость и прочность
    4. — ПЭВП или гомополимер ПП, оба значительно выше модуля упругости при изгибе ПЭНП (29 000 фунтов на кв. дюйм). Если деталь также должна выдерживать холодный удар, именно для этого конфликта существует ударный сополимер.
    5. — статистический сополимер ПП — самый очевидный вариант в этом наборе. ПЭВП выглядит полупрозрачным до молочно-белого, поэтому он проигрывает для любых прозрачных деталей.
    6. Контакт с химикатами
    7. — ПП обладает широкой устойчивостью к растворителям и очень высокой стойкостью к растрескиванию; отраслевые оценки ставят его ESCR примерно в 20–100 раз выше, чем у ПЭВП. Это делает ПП подходящим для агрессивных растворителей и кислот, в то время как ПЭВП получает право на трубы только потому, что марки PE100 специально созданы по бимодальной технологии для повышения ESCR.
    8. Метод переработки затем задает диапазон ПТР — высокий ПТР для заполнения тонкостенных литьевых и выдувных форм, низкий ПТР для труб и экструзии. Одна ловушка в сертификате качества: ПТР ПП измеряется при 230 °C/2,16 кг, а ПТР ПЭ — при 190 °C/2,16 кг, поэтому эти два числа несопоставимы напрямую между семействами.
    9. Читайте условия испытания, а не только число. Сам по себе ПТР также не скажет, чисто ли тянется марка — для этого нужно знать распределение молекулярной массы. После того как семейство и подгруппа определены, выбор марки ПП сужается далее среди
    10. гомополимеров, статистических и ударных сополимеров
    11. Отличие ПЭ от ПП при входном контроле.
  • Low-temperature impact — this points away from PP homopolymer every time. A freezer or cold-service part needs PE (HDPE or copolymer, tough to roughly -80 °C) or PP impact copolymer, where 5-15% ethylene drops the brittleness onset to -20 °C or below. Specifying homopolymer for a sub-zero drop-test part is the classic failure; raising its MFI won’t save it.
  • Stiffness and rigidity — HDPE or PP homopolymer, both far above LDPE’s 29,000 psi flexural modulus. If the part also has to take cold impact, that conflict is exactly why impact copolymer exists.
  • Clarity
    — random copolymer PP is the clearest option in this set. HDPE reads translucent-to-milky, so it loses on any see-through part.
  • Chemical contact — PP carries broad solvent resistance and very high stress-crack resistance; industry estimates put its ESCR roughly 20-100× that of HDPE. That suits PP to aggressive solvent and acid contact, while HDPE earns pipe duty only because PE100 grades are bimodal-engineered specifically to raise ESCR.

The processing method then sets the MFI band — high MFI to fill thin-wall injection and blow molds, low MFI for pipe and extrusion. One trap on the COA: a PP MFI is measured at 230 °C/2.16 kg and a PE MFI at 190 °C/2.16 kg, so the two numbers are not directly comparable across families.

Read the test condition, not just the number. MFI alone also won’t tell you whether a grade draws clean — you need the molecular-weight distribution behind it. Once the family and sub-grade are set, the PP grade-pick narrows further across homopolymer, random, and impact options.

Telling PE from PP at Incoming Inspection

A 60-second bench check confirms which resin a received lot actually is, and it does not start with the float test. PP sits at 0.895-0.92 g/cm³ and LDPE/LLDPE at 0.910-0.940, so both float in water. The common “PP floats, PE sinks” shortcut only separates the heavier HDPE, which sinks toward 0.96, and leaves a low-density-PE-versus-PP band unresolved.
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Контрольная проверка для отличия полиэтилена от полипропилена при входном контроле

Melt point is the clean separator. PP melts at 165-175 °C against PE’s 105-130 °C, a gap wide enough that a hot-plate or DSC reading settles the call on its own.
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Burn behavior confirms it without instruments. PP burns with a candle-wax smell carrying a dirty-engine-oil undertone, drips, and produces water vapor and CO₂; PE smells like clean paraffin wax.
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Run at least two of these — density screen, melt point, burn — before you trust the lot. Confirming the resin and sub-grade on arrival keeps a homopolymer-for-copolymer or PE-for-PP substitution from reaching the line.
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Making the Polyethylene-or-Polypropylene Pick

Identify the one requirement the part cannot compromise on, and let that requirement choose the sub-grade and MFI band before you compare material families. The family question answers itself once you know whether you need PP’s heat and stiffness or PE’s cold toughness.
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The within-family choice — homopolymer versus copolymer, HDPE versus LLDPE — usually decides the part more than the PE-versus-PP line does. Neither resin is the better material; the part’s governing requirement is.
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The COA gives you four numbers, the spec sheet gives you the window, and the application tells you which corner you need — a melt-point and burn check on arrival confirms it.
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