IBM og ISBM deler den samme afgørende fordel – en sprøjtestøbt hals – men adskiller sig ved blæsestationen på måder, der bestemmer, hvilke materialer de kan bearbejde, hvilke flaskeegenskaber de opnår, og hvilke koreanske emballageapplikationer hver proces tjener. Det forkerte procesvalg er dyrt på alle niveauer: forminvestering, materialekompatibilitet, outputhastighed og produktkvalitet. Denne guide viser præcis, hvor IBM og ISBM adskiller sig, og giver koreanske emballageingeniører en klar beslutningsramme for hvert produktionsscenarie.
Korea Ever-Power Engineering Desk · Ansan-si · Juli 2026
IBM vs. ISBM — Delt fundament og nøgledivergens
Begge: Nul blink
Ingen af processerne genererer flash - begge producerer 100% netformede flasker
Begge: Injektionshals
Begge danner halsen ved injektion — ±0,05 mm ydre diameter præcision i hver cyklus
IBM: HDPE · PP · ABS
IBM forarbejder de ikke-orienteringsafhængige råvaretermoplaster
ISBM: PET · PETG · PC
ISBM bearbejder orienteringsresponsive materialer for krystalklarhed og barriere
IBM (injektionsblæsestøbning) og ISBM (injektionsstrækblæsestøbning) er de eneste to blæsestøbningsprocesser, der producerer flasker med sprøjtestøbte halse. Denne fælles egenskab giver begge processer en præcisionsfordel i forhold til ekstruderingsblæsestøbning, hvilket er den mest kommercielt betydningsfulde funktion inden for farmaceutisk og premium kosmetikemballage. Koreanske farmaceutiske CRC-beholdere, koreanske pumpe-dispenser-kosmetik og koreanske fødevareglas, der kræver ensartet lukning på tværs af millioner af produktionscyklusser, drager alle fordel af denne præcision i den sprøjtestøbte hals - uanset hvilken af de to processer der producerer flaskekroppen.
Divergensen mellem IBM og ISBM opstår ved blæsestationen. I IBM pustes præformen på kernestangen op udelukkende af lufttryk - den udvider sig radialt for at fylde blæseformens hulrum uden nogen aksial strækning af polymerkæderne. I ISBM strækker en strækstang sig ind i præformen før og under blæsefasen og strækker præformen mekanisk aksialt (nedad), samtidig med at blæseluft puster den radialt op. Denne biaxiale strækning - strækning i to retninger samtidigt - ændrer fundamentalt strukturen af flaskevæggen for materialer, der reagerer på orientering. For PET producerer biaxial strækning krystalklarhed, gasbarriere og et højt styrke-til-vægt-forhold, som amorf (uorienteret) PET ikke kan opnå. For HDPE og PP giver biaxial strækning ingen nyttig forbedring - disse materialer kræver ikke orientering for at opnå deres funktionelle egenskaber, og den yderligere proceskompleksitet ved strækstangen er unødvendig.
The IBM vs ISBM decision is therefore, at its core, a material decision. Korean factories producing HDPE pharmaceutical containers, PP household chemical bottles and ABS cosmetic jars use IBM — because their materials do not require orientation and IBM’s higher cavity counts and simpler process architecture serve them more efficiently. Korean factories producing crystal-clear PET serum ampoules, PET cosmetic bottles and PETG premium packaging use ISBM — because PET without orientation is cloudy and weak, and ISBM’s biaxial stretch is what makes PET perform as a glass substitute. This material-driven decision resolves the IBM vs ISBM question for approximately 85% of Korean packaging applications without any further analysis.
HDPE, PP, ABS, PS and LDPE achieve their functional properties through their molecular chemistry, not through orientation. HDPE’s chemical resistance to Korean pharmaceutical active ingredients, PP’s heat resistance for Korean hot-fill food containers, ABS’s rigidity and impact strength for Korean cosmetic jars, and PS’s optical transparency for Korean dairy ampoules are all inherent material properties that exist without any orientation of the polymer chains. When these materials are injection blow moulded, the amorphous (non-oriented) wall they produce is functionally correct — the bottle performs exactly as required for its Korean packaging application. Adding a stretch rod to process HDPE in an ISBM-style would not improve HDPE’s chemical resistance, heat resistance or mechanical properties in any commercially meaningful way; HDPE simply does not respond to biaxial orientation the way PET does.
Amorf PET uden biaxial orientering er semitransparent, sprød og har moderate gasbarriereegenskaber. Det er ikke det premium-emballagemateriale til glaserstatning, som koreanske kosmetik- og drikkevaremærker specificerer. Biaksial orientering omdanner amorf PET til krystal-PET gennem en specifik mekanisme: Når PET strækkes i to retninger samtidigt ved en temperatur mellem dets glasovergangstemperatur (Tg ~80 °C) og dets krystallisationstemperatur (~130 °C), justeres polymerkæderne i strækretningerne og danner krystallinske områder. Disse orienteringskrystallitter - der udgør 25-35% af vægvolumenet under optimale ISBM-forhold - producerer tre samtidige egenskabsforbedringer. For det første, optisk klarhed: de justerede krystallitter spreder lys mindre end amorf PET, hvilket producerer den glaslignende transparens, som koreanske luksuskosmetik- og duftmærker specificerer. For det andet, gasbarriere: Krystallinske områder har en gasdiffusionskoefficient på næsten nul, hvilket skaber en snoet bane for ilt-, CO₂- og aromamolekyler, der forsøger at trænge gennem væggen - essentielt for koreansk emballage til sodavandsdrikke og koreansk iltfølsom fødevare. For det tredje, mekanisk styrke: orienterede krystallitter modstår revneudbredelse på tværs af væggen, hvilket forbedrer modstandsdygtigheden over for fald og kompressionsstyrken ved topbelastning pr. vægtykkelsesenhed - hvilket muliggør lettere PET-flasker til koreanske drikkevarer med tilsvarende strukturel ydeevne som tungere amorf PET.
| Ejendom | IBM — HDPE/PP/ABS | ISBM — Biaksial PET |
|---|---|---|
| Optisk klarhed | Uigennemsigtig eller gennemskinnelig (afhængigt af materialet) | Glasagtig — dis ≤1,5% |
| Kemisk resistens | Fremragende til farmaceutiske stoffer, olier, syrer | God til vandig brug — begrænset til højt ethanolindhold |
| Gasbarriere (O₂) | Lav til moderat | Høj krystallinsk struktur reducerer permeation |
| Bredmundet krukkekapacitet | Fremragende — IBM-indbygget | Kan opnås med 4-stations crimpering |
| Min. volumen | 1 ml | ~10 ml (strækstangstabilitet) |
| Maks. hulrum ved 10 ml | Op til 30 (ZQ135) | Op til 12 (HGY-serien) |
| Koreansk farmaceutisk GMP | Native — HDPE farmaceutiske beholdere | Opnåeligt — PP farmaceutisk, PETG medicinsk |
Strækstangen er det mekaniske element, der fysisk adskiller ISBM fra IBM. I ISBM bevæger strækstangen sig ned i præformen ved blæsestationen, før blæseluft indføres, hvilket mekanisk forlænger præformen aksialt med et kontrolleret strækforhold (typisk 2,5-3,5× for PET), mens maskinen samtidig indfører forblæseluft for at starte radial ekspansion. Strækstangens spids opretholder kontakt med indersiden af præformens base gennem hele blæsefasen, hvilket sikrer, at den aksiale strækning fortsætter, mens præformen udvider sig radialt - hvilket opnår biaxiale strækforhold på 4,5-5,5× kombineret i premium ISBM PET-produktion.
The stretch rod’s presence imposes requirements on the preform geometry that IBM preforms do not have. ISBM preforms for PET must be designed to maintain uniform temperature along their length before stretching — uneven temperature causes the stretch to localise at the warmest (lowest viscosity) zone rather than distributing uniformly, producing thin spots in the finished bottle wall. The conditioning station on 4-station ISBM machines (an additional station between injection and blow not present on standard 3-station ISBM) allows the preform to be reheated and temperature-profiled before the blow station — giving the operator precise control over the temperature gradient along the preform that determines stretch uniformity in the finished bottle. IBM’s 3-station architecture has no conditioning station: the preform goes directly from injection to blow, using the residual injection heat. This works correctly for HDPE and PP (which do not require precise orientation temperature control) but cannot achieve the temperature uniformity required for high-quality PET biaxial orientation in IBM machines designed for HDPE and PP.
For Korean packaging engineers, this means that an IBM machine designed for HDPE pharmaceutical containers is not a viable platform for crystal-clear PET cosmetic bottles — not because IBM cannot mechanically process PET, but because IBM’s process architecture cannot achieve the temperature control and stretch rod mechanism that PET orientation requires to produce commercially acceptable haze and mechanical properties. Similarly, an ISBM machine designed for PET cosmetic bottles is not the correct choice for HDPE pharmaceutical containers — the PET-optimised temperature ranges and stretch rod mechanism that ISBM requires are unnecessary complexity for HDPE, and the ISBM machine’s maximum cavity count (12 for the HGY series) is significantly below IBM’s 30-cavity ceiling at pharmaceutical 10 ml format.
IBM and ISBM produce different output rates at the same container format because they serve different cavity count architectures. IBM’s pharmaceutical-targeted multi-cavity approach (up to 30 cavities at 10 ml) produces the highest IBM output in the Korea Ever-Power range; ISBM’s PET-targeted architecture at up to 12 cavities for small formats serves a different output scale. At mid-to-large formats (100 ml+), the cavity count difference narrows and the machines operate at more comparable output rates.
IBM ved 10 ml (ZQ-serien)
ISBM ved 10 ml (HGY-serien)
Volume range also differs: IBM’s effective range is 1–2,000 ml, with the 1 ml lower limit making IBM the only blow molding process for Korean micro-pharmaceutical containers. ISBM’s practical lower limit is approximately 10–15 ml for the HGY series (smaller than this, stretch rod stability at the reduced preform diameter makes consistent orientation difficult). At the 10 ml format — the most common Korean pharmaceutical ophthalmic container size — IBM at 30 cavities outproduces ISBM at 12 cavities by approximately 2.2 to 1, making IBM the unambiguous process choice for Korean pharmaceutical volume production at small formats.
| Koreansk applikation | IBM | ISBM | Afgørende faktor |
|---|---|---|---|
| HDPE farmaceutiske beholdere (10-100 ml) | ✓ IBM | — | HDPE behøver ikke orientering · IBM: op til 30 hulrum · GMP-nativ |
| Krystalklart PET-kosmetisk serum (15-50 ml) | — | ✓ ISBM | PET kræver biaxial orientering for uklarhed ≤1,5% |
| ABS kosmetikcremebeholder med bred åbning (50-250 ml) | ✓ IBM | — | ABS kræver ikke orientering · IBM-indbygget funktion med bred åbning |
| Koreansk shampoo/balsam HDPE (250-1.000 ml) | ✓ IBM | — | HDPE native IBM · Højere kavitetstal end ISBM ved 500 ml |
| Koreansk PET-mineralvand / CSD (330-500 ml) | — | ✓ ISBM | PET-klarhed og CO₂-barriere kræver biaxial orientering |
| Koreansk madglas med bred åbning HDPE/PP (100-500 ml) | ✓ IBM | Sekundær | HDPE/PP bredåbning IBM-indbygget · ISBM mulig for PETG-klarhedsformater |
| Koreansk luksusduftflaske PET (30-100ml) | — | ✓ ISBM | Krystalklarhed i PET-glas og ethanolresistens kræver biaxial orientering |
Wide-mouth jars — containers where the neck inner diameter is ≥30 mm and the ratio of mouth diameter to body diameter is ≥0.5 — are IBM’s most unambiguous advantage over standard 3-station ISBM. In IBM, the core rod defines the neck geometry and the preform is inflated radially to fill the blow mould body cavity. Wide-mouth jars simply require a larger core rod and a wider blow cavity — there is no process constraint on how wide the mouth can be relative to the body. Korea Ever-Power’s ZQ series IBM machines produce wide-mouth jars at 8-cavity 250 ml in ABS and PP as routine production formats, and at 5-cavity 500 ml and 3-cavity 1,000 ml for Korean food-grade HDPE wide-mouth container production.
Standard 3-station ISBM machines face a geometric constraint on wide-mouth production: the stretch rod must be retracted from inside the bottle after the blow phase, and as the mouth diameter approaches the body diameter, the stretch rod’s retraction path becomes constrained by the wide neck — particularly for containers with shoulder profiles that narrow significantly below the wide mouth. This constraint requires 4-station ISBM machines (with a dedicated conditioning station that allows wider preforms to be conditioned at higher temperatures to reduce stretch resistance) for wide-mouth PET container production, adding machine cost and complexity versus IBM’s native wide-mouth architecture. For Korean ABS and PP wide-mouth cosmetic jars, IBM at lower machine cost, higher cavity count and without the conditioning station investment is the commercially superior choice. The EP-ZQ80 Ved en 250 ml ABS-krukke med 10 hulrum er den mest almindelige koreanske K-Beauty-cremekrukke med IBM-konfiguration den mest almindelige — klemkraften på 1.100 KN ved dette hulrumsantal forhindrer flash ved skillelinjen med den brede åbning ved standard ABS-indsprøjtningstryk.
Korean cosmetics is the product sector where IBM and ISBM are most commonly misunderstood to be alternatives rather than complements. The confusion arises because Korean K-Beauty cosmetic packaging uses both processes for products that sit on the same Korean department store shelf. A Korean serum ampoule in crystal-clear PET (ISBM) sits next to a Korean cream in an opaque ABS wide-mouth jar (IBM) in the same product lineup — both are cosmetic packaging, both have injection-moulded necks, and both are produced by Korea Ever-Power. The process that produced each container is determined entirely by the container’s material specification, not by the cosmetic product category.
For Korean cosmetic packaging engineers specifying a new product line, the process decision follows the material: ABS, PP or PCTG opaque jars → IBM; crystal-clear PET or PETG serum ampoules → ISBM. The only genuine process overlap in Korean cosmetics is PCTG containers — PCTG can be processed in both IBM (as a non-oriented container with good clarity) and ISBM (as an oriented container with higher clarity). For PCTG, the choice is output rate (IBM’s higher cavity count) versus clarity (ISBM’s orientation-enhanced transparency). Korean cosmetic brands whose PCTG container specification requires haze ≤1.5% need ISBM; those whose specification accepts haze ≤3% can use IBM and benefit from IBM’s higher output rate and lower machine cost per unit.
IBM vs ISBM-afgørelsen forenkles til et enkelt primært spørgsmål og et sekundært spørgsmål for koreanske fabrikker. Det primære spørgsmål løser processen for 90% af applikationer uden yderligere analyse.
Primært spørgsmål: Hvad er beholdermaterialet?
HDPE, PP, ABS, PS, LDPE, EVA → IBM. These materials do not require orientation; IBM’s higher cavity counts serve them more efficiently than ISBM.
PET, PETG, Tritan, PC (gennemsigtig) → ISBM. These materials require biaxial orientation to achieve their characteristic clarity, barrier and strength properties; ISBM’s stretch rod is structurally necessary.
Sekundært spørgsmål: Er beholderen en krukke med bred åbning eller en beholder i lille format (<10 ml)?
Bredmundet krukke (mund/krop-forhold ≥0,5) i ethvert materiale → IBM preferred. IBM’s native wide-mouth capability avoids the conditioning station complexity that ISBM wide-mouth requires.
Mindre end 10 ml i ethvert gennemsigtigt materiale → Kun IBM. ISBM kan ikke pålideligt behandle formater under 10-15 ml; IBM ved 1 ml er den eneste mulighed.
Korea Ever-Power fremstiller begge ZQ-serien sprøjtestøbemaskiner og den HGY-serien 4-stations ISBM-maskiner. Korean packaging factories whose product range spans HDPE pharmaceutical containers and crystal-clear PET cosmetic bottles — a common profile for Korean contract packaging companies serving both pharmaceutical and cosmetic clients — operate both platforms on the same Korean factory floor. The shared infrastructure between IBM and ISBM (compressed air, cooling water, 380V electrical supply, Korean safety guarding standards) makes co-location straightforward. Operator training tracks are separate — IBM and ISBM process parameters differ significantly — but Korea Ever-Power provides integrated training for Korean factories commissioning both platforms simultaneously. For a Korean contract packaging factory adding its second process type (adding IBM to an existing ISBM line, or adding ISBM to an existing IBM line), Korea Ever-Power’s applications engineering team provides a combined production planning consultation covering machine placement, utility distribution, mould management and the production scheduling logic for alternating both process types across the same Korean production calendar.
Q1 — Hvad er den enkleste måde at huske forskellen på IBM og ISBM?
IBM = HDPE og PP. ISBM = PET. Hvis beholderen er uigennemsigtig eller gennemskinnelig HDPE-farmaceutisk emballage, en PP-husholdningskemikalieflaske eller en ABS-kosmetikkrukke - er IBM den rigtige proces. Hvis beholderen er krystalklar, transparent og lavet af PET eller PETG - er ISBM den rigtige proces. Begge processer producerer præcision i den sprøjtestøbte hals og nul flash. Materialet er den eneste beslutning, der betyder noget for 90% af koreanske emballageapplikationer. De resterende 10% - PCTG-beholdere og PET-krukker med bred åbning - involverer en sekundær sammenligning af disspecifikation versus outputhastighed, hvor IBM vinder på output og ISBM vinder på maksimal klarhed.
Q2 — Kan en IBM-maskine forarbejde PET til at producere klare flasker?
An IBM machine can mechanically inject and blow PET — the barrel temperature ranges for PET (260–285°C) are achievable on IBM machines designed for high-temperature materials, and PET can be inflated in an IBM blow station without a stretch rod. However, the resulting bottle is made of amorphous (unoriented) PET, which has significantly worse optical properties (haze 8–18% versus ISBM’s haze ≤1.5%), lower gas barrier performance and inferior mechanical strength-to-weight ratio compared to biaxially oriented ISBM PET. For Korean cosmetic brands specifying crystal-clear PET with haze ≤2% — the industry standard for Korean premium serum packaging — IBM-produced amorphous PET fails the specification by 4–9× at best. Additionally, IBM machines designed for HDPE and PP typically operate at 170–250°C barrel temperatures and do not have the 260–285°C capability or PET-grade screw geometry for optimal PET processing. The short answer: technically possible in some IBM configurations, commercially unacceptable for any Korean application requiring transparent PET packaging.
Q3 — Kan ISBM forarbejde HDPE til at producere farmaceutiske beholdere?
Standard ISBM machines designed for PET (including the Korea Ever-Power HGY series) are not designed or optimised for HDPE processing. HDPE’s melt temperature (170–220°C) is well within ISBM barrel capability, but HDPE does not benefit from the stretch rod mechanism — it does not undergo useful biaxial orientation when stretched at ISBM conditions, and the resulting container has no meaningful improvement in clarity, barrier or strength over an IBM-produced HDPE container. Additionally, ISBM’s maximum cavity count for pharmaceutical 10 ml format (up to 12 for the HGY series) is far below IBM’s 30-cavity ceiling — a Korean pharmaceutical factory that processed HDPE on an ISBM machine would produce at less than half the output rate of an IBM machine at the same format while paying for the unnecessary complexity of the stretch rod mechanism. PP is occasionally processed on ISBM machines (particularly 4-station ISBM with high-temperature conditioning) for specific applications requiring PP’s heat resistance in a biaxially oriented form — oriented PP (OPP) containers have specific niche applications in Korean hot-fill food packaging where PET’s heat resistance is insufficient and oriented PP provides improved top-load strength. Outside this niche, HDPE and PP belong on IBM machines, not ISBM.
Q4 — Hvilken proces er bedre til koreansk farmaceutisk emballage — IBM eller ISBM?
IBM is the dominant process for Korean pharmaceutical container production in HDPE and PP — the two most widely used Korean pharmaceutical container materials. The reasons are three-fold. First, output rate: IBM at 30 cavities (ZQ135) produces approximately 23,800 bottles per hour at 10 ml; ISBM at 12 cavities (HGY250-V4) produces approximately 10,800 bottles per hour at the same format — IBM at 2.2× higher output. For Korean pharmaceutical contract packaging facilities producing at multi-million unit annual volumes, this output rate difference is the single most important machine selection factor. Second, cavity count history: Korean KFDA GMP pharmaceutical container qualification validates a specific container at a specific cavity count. IBM’s 20–30 cavity configurations allow Korean pharmaceutical factories to qualify once at high cavity count and produce at scale; ISBM’s 12-cavity ceiling requires more machine-years of production to reach equivalent annual volume, with correspondingly more qualification batches required if the machine count increases. Third, material fitness: HDPE is the correct material for the majority of Korean pharmaceutical containers because of its chemical resistance to pharmaceutical actives, low extractables, KFDA compliance and autoclave-compatible grades. IBM is the correct process for HDPE because it processes HDPE at higher cavity counts, at better operating economics, and without the unnecessary process complexity of orientation that HDPE does not need. ISBM is used for Korean pharmaceutical packaging specifically in PET and PETG medical device packaging, transparent pharmaceutical primary packaging for visually inspected Korean injectable products, and Korean PC/Tritan medical containers — all applications where transparency is the pharmaceutical specification requirement and ISBM’s biaxial orientation is essential.
Q5 — Hvorfor er ISBM PET-klarhed så meget bedre end IBM HDPE-klarhed?
ISBM PET clarity and IBM HDPE clarity are different properties that reflect different material physics — they are not comparable on the same scale because the materials have fundamentally different optical properties regardless of which process produces them. HDPE is inherently opaque or translucent because its high crystallinity (typically 60–80% crystalline at room temperature, far higher than oriented PET) causes light scattering at the interfaces between crystalline and amorphous regions. No blow molding process can produce a crystal-clear HDPE bottle — not IBM, not ISBM, not EBM — because HDPE’s clarity is limited by its molecular structure, not by the processing method. Oriented ISBM PET achieves haze ≤1.5% because biaxial orientation in PET creates a specific crystalline structure where the oriented crystallites are small and uniformly distributed, scattering light less than the large random crystallites that form in slowly cooled amorphous PET or in high-crystallinity polymers like HDPE. The question of IBM vs ISBM clarity is only meaningful when comparing the same material processed by both methods — and in that comparison (as discussed in Q2), ISBM PET is unambiguously clearer than amorphous IBM PET. For Korean packaging engineers comparing IBM and ISBM, the clarity comparison should never be IBM HDPE versus ISBM PET — they are different materials for different applications. The correct comparison is: if the Korean container requires crystal clarity, the material must be PET or PETG, and the process must be ISBM.
Q6 — Hvad skal en koreansk fabrik bruge for at køre både IBM og ISBM på samme etage?
At køre IBM og ISBM på den samme koreanske fabrik kræver planlægning på tværs af fem dimensioner. For det første, plads: IBM-maskiner (ZQ-serien med en længde på 3,5-5,5 m) og ISBM-maskiner (HGY-serien med en længde på 3,8-6,2 m) har brug for separate produktionsceller med plads til formskift og transportbåndsforlængelse - planlæg mindst 50 m² pr. IBM-celle og 55 m² pr. ISBM-celle. For det andet, forsyningsvirksomheder: Begge platforme bruger trykluft (oliefri, 0,7-1,2 MPa), kølevand (4-8 M³/t pr. maskine) og 380V 3-faset strømforsyning - disse forsyningsvirksomheder kan deles på fælles distributionssystemer med individuelle maskinafspærringsventiler og afbrydere, hvilket reducerer de samlede infrastrukturomkostninger i forhold til to separate forsyningsvirksomheder. For det tredje, harpikser: IBM-harpiks (HDPE, PP, ABS) og ISBM-harpiks (PET, PETG) kræver separat tør opbevaring og, for PET, dedikeret fortørringsudstyr (dugpunkt ≤−40 °C 4-6 timer før forarbejdning) for at forhindre hydrolytisk nedbrydning. PET-tørringsudstyr skal adskilles fra HDPE- og PP-opbevaring - PET er ekstremt fugtfølsomt, og krydskontaminering fra forkert opbevarede PET-granulat kan ødelægge en produktionskørsel. For det fjerde, forme: IBM-formsæt og ISBM-forme kræver separate opbevaringsreoler, håndteringsudstyr, der er dimensioneret til hver formsætvægt, og separate vedligeholdelsesplaner. IBM-forme har tre matchende komponenter pr. format (sprøjtestøbeform, blæsestøbeform, afisoleringsværktøj); ISBM-forme har præformstøbeform, blæsestøbeform og konditioneringsindsatser (på 4-stationsmaskiner). For det femte, operatører: IBM- og ISBM-procesparametre er så forskellige, at der kræves separate trænede operatørteams eller strenge opdelte træningsprogrammer for at forhindre procesparameterfejl, når operatører skifter mellem platforme. Korea Ever-Power tilbyder et installations- og træningsprogram med to platforme til koreanske fabrikker, der idriftsætter både IBM og ISBM samtidigt – hvilket dækker optimering af forsyningslayout, separation af harpikslager, formstyringssystemer og planlægning af delt træning.
IBM- og ISBM-forespørgsel
Korea Ever-Power producerer både ZQ-serien af IBM-maskiner og HGY-serien af ISBM-maskiner. Vores applikationsingeniører leverer kombineret IBM vs. ISBM-udvælgelsesanalyse, gennemgang af materialekompatibilitet og planlægning af produktionscelle til koreanske emballagefabrikker i alle skalaer.
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