Our Liquid Crystal Polymer LCP Injection Molding Services
Elevate precision manufacturing for high-tech applications with our LCP Injection Molding services—where the ultra-low viscosity and thermal stability of Liquid-crystal polymer (LCP) meet micro-scale engineering excellence. From 5G mmWave connectors to surgical micro-catheters, we deliver parts with unmatched thin-wall capabilities and high-frequency performance, backed by expertise in optimizing thermotropic mesomorphic behavior for critical industries.
Definición: Understanding LCP Injection Molding
LCP Injection Molding is the process of shaping Liquid-crystal polymer (LCP)—a unique engineering plastic with thermotropic mesomorphic behavior (forms ordered liquid-crystal structures when melted)—into high-precision components via injection molding. LCP stands out as a high-flow engineering resin that excels in ultra-thin-wall and micro-sized parts, making it the material of choice for industries demanding miniaturization and reliability. Below is a breakdown of key definitions, presupuesto, and comparisons to similar high-performance plastics:
Core Specifications & Standards
| Specification Category | Detalle | Relevant Standard | Propósito |
| Thermal Performance | Temperatura de deflexión de calor (HDT): 300 ° C @ 1.82 MPA; Temperatura continua de uso continuo: 240–280 °C | ASTM D648 | Ensures performance in high-heat applications (P.EJ., 5G base stations, sensores automotrices) |
| Flowability | Melt Flow Rate (MFR): 50–150 g/10min (260 °C/2.16 kg); Enables ultra-thin-wall parts down to 0.05 mm | ASTM D1238 | Critical for micro-components (P.EJ., hearing-aid shells, fiber-optic ferrules) |
| Flame Retardancy | Inherent flame retardant UL 94 V-0 (no additives needed); Halogen-free options available | UL 94 | Meets safety requirements for electronics (P.EJ., DDR5 memory sockets, IoT modules) |
| Resistencia mecánica | Resistencia a la tracción: 80–120 MPA; Módulo de flexión: 10–15 GPa (glass-filled grades) | ASTM D638 | Guarantees structural integrity for load-bearing micro-parts (P.EJ., insulin-pump gears) |
| Material Classification | Defined by melt orientation and mesophase behavior | ASTM D5138 | Ensures consistency in LCP grade selection for specific applications |
LCP vs. PPS/PEEK (Key Competitors)
| Aspecto | LCP | PPS | Echar un vistazo a |
| Flowability | Excelente (ultra-low viscosity; 0.05 mm thin-wall capability) | Bien (arriba a 0.5 mm thin-wall) | Justo (mínimo 0.2 mm thin-wall) |
| Rendimiento de alta frecuencia | Superior (low dielectric loss at 90 GHz; ideal for 5G/6G) | Moderado (lossy above 20 GHz) | Moderado (lossy above 30 GHz) |
| Tiempo de ciclo | Rápido (<10 s) | Medio (15–30 s) | Lento (20–40 s) |
| Costo | 80–120/kg | 35–50/kg (más bajo) | 100–150/kg (más alto) |
| Ventaja clave | Miniaturization, high-frequency performance | Rentabilidad, resistencia química | Resistencia al calor extrema, biocompatibilidad (implant-grade) |
| Mejor para | 5G RF components, micro-medical devices | Automotive fluid parts, industrial pumps | Implantes médicos, piezas estructurales aeroespaciales |
Nuestro service scope covers end-to-end LCP molding—from material selection (por ASTM D5138 grade) to post-processing—ensuring parts meet the strictest precision and performance standards.
Nuestras capacidades: Mastering Micro-Scale LCP Molding
En la tecnología yigu, nuestro LCP Injection Molding capabilities are engineered to unlock LCP’s unique potential for ultra-precise, piezas de alto rendimiento. We invest in specialized equipment and expertise to handle LCP’s high-flow, high-temperature requirements, even for the most demanding micro-components. Below is a detailed overview of our core capabilities:
Descripción general de las capacidades básicas
| Capacidad | Descripción | Especificaciones técnicas | Ideal para |
| 0.05 mm Thin-Wall Molding | Specialized processes to mold LCP into ultra-thin sections without short shots | Minimum wall thickness: 0.05 milímetros; Aspect ratio (profundidad:wall): 20:1 | 5G mmWave connectors, surgical micro-catheter tips |
| 0.08 g Micro-Shot | Precision dosing for ultra-small LCP parts with minimal material waste | Minimum shot weight: 0.08 gramo; Feature size: 0.1 mm | Hearing-aid shells, micro-gears (insulin pumps) |
| ±5 µm True-Position | CNC-controlled machines with sub-micron accuracy for tight tolerances | Position tolerance: ±5 µm; Dimensional repeatability: ±2 µm | Fiber-optic ferrules, DDR5 memory socket pins |
| Multi-Cavity Hot-Runner | Custom hot-runner molds with up to 128 cavities for high-volume micro-parts | High-cavitation up to 128-fold; Reducción del tiempo del ciclo: 60–70% vs. single-cavity | Smartphone camera holders, IoT antenna modules |
| 400 °C Electric Presses | High-temperature electric injection molding machines optimized for LCP’s melt requirements | Barrel temp range: 320–360 °C; Velocidad de inyección: Arriba a 1,000 mm/s | High-heat parts (P.EJ., sensores automotrices, aerospace coax filters) |
| Clean-Room ISO 7 | Clase 7 (10,000-class) cleanroom for contamination-sensitive LCP parts | Particle count: <10,000 particles/ft³ (≥0.5 μm) | Dispositivos médicos (surgical catheters), semiconductor components |
| Vision 100% Inspección | Automated optical inspection (AOI) systems to check 100% of parts for defects | Detection accuracy: 0.005 milímetros; Inspection speed: 1,200 piezas/hora | High-volume electronics (5G connectors, DDR5 sockets) |
| In-House CT Scanning | 3D CT scanning to inspect internal and external geometry of complex LCP parts | Resolución: 5 µm; Scan time: <5 minutes/part | RF filters (cavidades internas), micro-assemblies |
| Rapid-Tool Change | Quick-change tooling systems to switch molds in under 2 horas | Tool change time: <120 minutos; Compatible with all cavity counts | Low-volume runs, multi-SKU production |
Nuestro in-house DfM + mold-flow (Diseño para la fabricación) support also ensures your LCP part designs are optimized for molding—reducing tooling revisions and accelerating time to market.
Proceso: Step-by-Step LCP Injection Molding
LCP’s unique thermotropic mesomorphic behavior and ultra-low viscosity require a highly controlled injection molding process. Even minor deviations in temperature, velocidad, or pressure can compromise part precision or cause defects like weld lines. Below is our optimized process, designed to maximize consistency and performance:
Paso 1: Preparación de material (El secado)
LCP absorbs minimal moisture (0.02% máximo), but even trace amounts cause surface defects (P.EJ., splay). We dry LCP pellets in a dehumidifying dryer at 150 ° C para 4 horas (target moisture content: <0.01%). For halogen-free or medical-grade LCP, we use nitrogen-purged dryers to prevent contamination.
Paso 2: Diseño de moldes & Preparation
- Hot-Runner Optimization: We use multi-cavity hot runners with balanced flow channels to ensure uniform LCP distribution—critical for high-cavitation up to 128-fold moldes. Gates are placed to minimize weld lines (a common LCP defect).
- Control de la temperatura del molde: Molds are heated to 100–140 °C (via electric heaters) to promote LCP’s liquid-crystal orientation, which enhances part strength and dimensional stability. For thin-wall parts, we use conformal cooling to avoid uneven cooling.
Paso 3: Configuración de la máquina
- Barrel Temperature Profile: Barrel zones are set to a precise gradient to melt LCP without degradation:
- Feed zone: 320 ° C (softens pellets)
- Melt zone: 340–350 °C (maintains mesophase flow)
- Nozzle: 350–360 °C (prevents solidification)
- High-Shear Screw: Our screws have shallow flights and high rotation speed (150–200 RPM) to generate shear, which enhances LCP’s flowability and orientation.
Paso 4: Inyección & Packing
- Fast Injection (1,000 mm/s): LCP’s ultra-low viscosity allows extremely fast injection—critical for filling ultra-thin-wall (0.05 milímetros) cavities before cooling. Slow injection causes short shots or uneven flow.
- Low Back-Pressure: We use low back-pressure (5–10 bar) to avoid breaking LCP’s liquid-crystal structure, which preserves part strength.
- Gate-Seal Optimization: We adjust injection pressure to ensure proper gate sealing (prevents flash, which is hard to remove from micro-parts).
Paso 5: Enfriamiento & Fundamento
Cooling time is short (5–10 s) due to LCP’s fast crystallization. We use controlled cooling to maintain dimensional accuracy—too fast, and parts warp; demasiado lento, and cycle times increase. Demolding uses soft, precision ejectors to avoid damaging delicate features (P.EJ., 0.1 mm pitch pins in DDR5 sockets).
Paso 6: Postprocesamiento & Control de calidad
- Post-Anneal Stress Relief: Parts are heated to 180–200 °C for 30–60 minutes to relieve internal stresses, improving dimensional stability by 25–30%.
- Weld-Line Minimization: For parts with critical strength requirements (P.EJ., engranaje), we use laser welding to reinforce weld lines.
- Cavity-Pressure Trace: We log cavity pressure data for every part, enabling traceability and process optimization.
Vision 100% Inspección: All parts undergo AOI to check for defects (destello, disparos cortos, dimensional 偏差) and ensure compliance with specs.
Materiales: Choosing the Right LCP Grade for Your Project
LCP is available in various grades, each formulated to enhance specific properties (flowability, fortaleza, weld resistance). The right grade depends on your application’s needs—whether you require ultra-thin walls, rendimiento de alta frecuencia, o biocompatibilidad. Below is a guide to the most common LCP grades we use:
Popular LCP Grades & Their Uses
| LCP Grade | Manufacturer | Propiedades clave | Aplicación ideal |
| Vectra E130i | Celanese | General-purpose; Alto flujo; Inherent flame retardant UL 94 V-0 | 5G RF connectors, IoT antenna modules |
| Zenite 6130 | Celanese | 30% lleno de vidrio; Rigidez (flexural modulus: 13 GPA); Low warpage | DDR5 memory sockets, sensores automotrices |
| Sumikasuper E5008T | Sumitomo Chemical | Low-warpage grade; Excellent weld strength; Halogen-free | Smartphone camera holders, fiber-optic ferrules |
| Glass-Filled LCP | Custom formulation | 20–40% de fibra de vidrio; Alta resistencia a la tracción (120 MPA); 300 ° C HDT | Insulin-pump gears, aerospace coax filters |
| Mineral-Filled LCP | Custom formulation | 20–30% mineral; Bajo coeficiente de expansión térmica (Cte); CTE matched to ceramic | RF filters (matches ceramic substrates), semiconductor packages |
| Electro-Platable LCP | Custom formulation | Compatible with electroless Ni/Au plating; Good conductivity after treatment | Conectores (needs plating for conductivity), RF components |
| Laser-Markable Black | Custom formulation | High-contrast black finish; Permanent laser marks (white on black) | Dispositivos médicos (trazabilidad), Electrónica de consumo (herrada) |
| Halogen-Free Grade | Celanese/Sumitomo | Ul 94 V-0; No halogens (bromine, cloro); RoHS/REACH compliant | Eco-friendly electronics, dispositivos médicos |
Grade Selection Checklist
- Thin-Wall Requirement: Para <0.1 paredes mm (P.EJ., 5G mmWave connectors), choose high-flow grades (Vectra E130i).
- Rendimiento de alta frecuencia: For 5G/6G (28–90 GHz), select low-dielectric-loss grades (Sumikasuper E5008T).
- Medical Use: Choose halogen-free, biocompatible grades (custom formulations meeting ISO 10993).
- Estabilidad dimensional: For parts matching ceramic/metal (P.EJ., RF filters), elegir mineral-filled LCP (CTE-matched).
Tenemos direct Celanese & Polyplastics supply agreements, ensuring consistent access to top LCP grades—even for high-volume orders.
Tratamiento superficial: Enhancing LCP Part Performance
LCP’s inherent properties (resistencia química, high temperature stability) are exceptional, pero tratamiento superficial can expand its capabilities—whether you need conductivity, biocompatibilidad, or EMI shielding. Below are the most effective surface treatments for LCP parts:
| Tratamiento superficial | Proceso | Beneficio clave | Aplicación ideal |
| LCP Plasma Activation | Exposing parts to oxygen plasma to create polar surface groups | Improves adhesion (for coatings/bonding) by 400% | Multi-material assemblies (LCP + metal), painted parts |
| Chemical Etch | Immersing parts in mild acid solution to roughen surface | Enhances plating adhesion (crítico para electro-less Ni/Au) | Conectores (needs reliable plating), RF components |
| Electro-Less Ni/Au | Depositing nickel-gold layer without electricity | Provides conductivity, resistencia a la corrosión, and solderability | DDR5 memory sockets, fiber-optic connectors |
| Selective Plating | Plating only specific areas (P.EJ., contact pins) to save cost | Reduces material use by 50–70%; Maintains LCP’s insulation elsewhere | 5G connectors (only pins need plating), sensor contacts |
| PVD Sputtering | Depositing thin metal films (aluminio, cobre) via physical vapor deposition | Adds EMI shielding (surface resistance: <1 Ω/sq); Delgado (1–5 μm) | RF filters, IoT modules (needs EMI protection) |
| Laser Ablation | Using a laser to remove surface material for precision features | Creates micro-grooves (0.01 ancho de mm); No tool wear | Surgical micro-catheters (canales fluidos), micro-optics |
| Micro-Blasting | Blasting with fine alumina powder to create matte finish | Hides fingerprints; Improves grip | Medical device handles, Electrónica de consumo (estética) |
| Bondable Primer | Applying a polyurethane primer to LCP surfaces | Enables bonding to dissimilar materials (silicona, metal) | Insulin pumps (LCP + silicone gaskets), sensores automotrices |
| UV-Curable Ink | Printing with UV-curable ink (cured via UV light) | Permanente, chemical-resistant marks; Fast processing | Medical device labels, consumer electronics branding |
| EMI Shield Coat | Applying a conductive coating (plata, carbón) | Blocks electromagnetic interference; Flexible (conforms to LCP) | Smartphone camera modules, IoT antenna enclosures |
Por ejemplo, Usamos electro-less Ni/Au on DDR5 sockets to ensure reliable electrical contact, y laser ablation on surgical micro-catheters to create precise fluid channels for drug delivery.
Ventajas: Why LCP Injection Molding Outperforms Alternatives
LCP Injection Molding offers unique advantages that make it irreplaceable for micro-scale, Aplicaciones de alto rendimiento. Compared to PPS, OJEADA, and ceramics, LCP delivers unmatched value for miniaturized, high-frequency, and high-heat parts:
- Ultra-Low Viscosity: LCP’s melt viscosity is 5–10x lower than PPS/PEEK, habilitador ultra-thin-wall parts down to 0.05 mm and 0.1 mm pitch capability (dense pin grids in connectors). No other plastic can match this for miniaturization.
- High-Frequency Dielectric Performance: LCP has ultra-low dielectric loss (Df <0.002 en 10 GHz) and stable dielectric constant (Dk ≈3.0), making it the top choice for 5G/6G RF components (P.EJ., mmWave connectors, coax filters) that require minimal signal loss.
- Extreme Thermal Stability: Con 300 ° C HDT, LCP maintains strength in high-heat environments (P.EJ., automotive engine bays, 5G base station amplifiers) without warping or losing strength. This outperforms PPS (HDT: 260 ° C) and matches PEEK (HDT: 300 ° C) at a lower cost for non-implant applications.
- CTE Matched to Ceramic: Mineral-filled LCP has a coefficient of thermal expansion (Cte) of 5–8 × 10⁻⁶/°C—nearly identical to ceramic substrates (6 × 10⁻⁶/° C). This eliminates thermal stress in multi-material assemblies (P.EJ., RF filters with ceramic cores), a problem that plagues PPS/PEEK (CTE 15–20 × 10⁻⁶/°C).
- Chemical Inertness: LCP resists oils, solventes, ácidos (pH 2–12), and bases—similar to PEEK but with better flowability. It’s also resistant to harsh cleaning agents, haciéndolo ideal para dispositivos médicos (P.EJ., surgical catheters) and industrial sensors.
- Radiation Sterilizable: LCP withstands gamma radiation (25 kGy) and ethylene oxide (ETO) sterilization—critical for reusable medical tools (P.EJ., Componentes de la bomba de insulina) that need frequent disinfection. Unlike some plastics (P.EJ., CLORURO DE POLIVINILO), it doesn’t become brittle after sterilization.
- Minimal Flash: LCP’s high flow and fast solidification reduce flash (exceso de material) a <0.01 mm—far less than PPS/PEEK. This eliminates costly post-processing (guarnición), a major advantage for high-volume micro-parts (P.EJ., 5G connectors).
- Fast Cycle <10 s: LCP’s fast crystallization (due to its liquid-crystal structure) cuts cycle times to 5–10 seconds—2–4x faster than PPS (15–30 s) and PEEK (20–40 s). For high-volume parts (P.EJ., DDR5 sockets), this triples production output and lowers unit costs.
Metal & Ceramic Replacement: LCP is 50–70% lighter than metal (aluminum/steel) and 30–40% lighter than ceramic. It also costs 20–30% less than ceramic for complex shapes (no sintering needed). Por ejemplo, replacing metal 5G connector shells with LCP cuts weight by 60% y costo por 25%.
Industria de aplicaciones: Where LCP Injection Molding Shines
LCP Injection Molding dominates industries that demand miniaturization, rendimiento de alta frecuencia, and reliability in harsh conditions. From 5G networks to life-saving medical devices, LCP solves problems no other material can. Below’s how key sectors leverage LCP:
| Industria | Aplicaciones clave | LCP Grade Used | Critical LCP Property Utilized |
| Telecomunicaciones | 5G/6G RF connectors, mmWave antennas, coax filters, fiber-optic ferrules | Vectra E130i, Sumikasuper E5008T | High-frequency dielectric (low loss at 90 GHz), 0.1 mm pitch capability |
| Electrónica | DDR5 memory sockets, smartphone camera holders, IoT antenna modules, semiconductor packages | Zenite 6130, mineral-filled LCP | ±5 µm true-position (precisión), CTE matched to ceramic, fast cycle times |
| Dispositivos médicos | Surgical micro-catheters (5 Fr), insulin pump gears, hearing-aid shells, dental tools | Halogen-free LCP, laser-markable black | Radiation sterilizable, resistencia química, ultra-thin-wall (0.05 milímetros) |
| Automotor | Sensores de motor, EV battery connectors, ADAS (Advanced Driver Assistance Systems) modules | Glass-filled LCP, Zenite 6130 | 300 ° C HDT (resistencia al calor), resistencia química (oils/fuels) |
| Aeroespacial | Coax filters, satellite communication components, lightweight structural brackets | Glass-filled LCP, Ul 94 V-0 grade | Inherent flame retardancy, estabilidad de alta temperatura, liviano |
| Electrónica de consumo | Hearing-aid shells, smartwatch components, wireless charger coils | Laser-markable black LCP, electro-platable LCP | Miniaturization (0.08 g micro-shot), acabado estético, conductividad (after plating) |
| Industrial | High-temperature sensors, chemical-resistant valves, micro-pump components | Glass-filled LCP, mineral-filled LCP | Chemical inertness, 300 ° C HDT, estabilidad dimensional |
A standout example: In 5G mmWave connectors, LCP’s ability to mold 0.08 mm thin walls and maintain low dielectric loss at 90 GHz makes it the only material that can meet the industry’s miniaturization and performance goals. Ceramic connectors are too brittle, and PPS can’t handle the frequency or thinness.
Estudios de caso: Real-World Success with LCP Injection Molding
Nuestro LCP Injection Molding services have helped clients across high-tech industries overcome miniaturization and performance challenges—from launching 5G networks to improving patient care. Below are detailed case studies with measurable results:
Estudio de caso 1: 0.08 mm 5G mmWave Connector (90 GHz, 40% Cost-Down)
- Desafío: A telecom equipment maker needed a 5G mmWave connector (28–90 GHz) con 0.08 mm paredes delgadas (to fit in small base stations) and dielectric loss <0.003. The existing ceramic connector was brittle (5% failure rate during assembly), pesado (10gramo), y caro ($15/unidad).
- Solución: Usamos Vectra E130i (high-flow LCP) for its low dielectric loss and ultra-thin-wall capability. Nuestro 0.05 mm thin-wall molding process filled the 0.08 mm cavities, y electro-less Ni/Au plating ensured reliable electrical contact. We also used a 32-cavity hot-runner mold to boost production.
- Resultado: The LCP connector weighed just 3g (70% lighter than ceramic), had a failure rate <0.1% (VS. 5% for ceramic), and cost $9/unit (40% cost-down). It maintained dielectric loss <0.002 en 90 GHz—exceeding the client’s requirement. The client scaled to 100,000 connectors/month, con nuestro vision 100% inspección ensuring zero defects.
- Testimonial de clientes: “LCP let us shrink our 5G base stations by 30%. The connector’s performance at 90 GHz is unmatched—we’re now using LCP for all our mmWave components.” — Telecom Engineering Director
Estudio de caso 2: 64-Cavity DDR5 Socket (7 s Cycle, 3x Output)
- Desafío: A semiconductor company needed a DDR5 memory socket with 0.1 mm pitch pins (128 pins total) and ±5 µm true-position. The existing PPS socket had slow cycle times (25 s) and poor pin alignment (15% rejected), limiting production to 10,000 unidades/mes.
- Solución: Seleccionamos Zenite 6130 (glass-filled LCP) for its precision and low warpage. Nuestro 64-cavity hot-runner moho (high-cavitation up to 128-fold) y fast injection (1,000 mm/s) cut cycle time to 7 artículos de segunda clase. También usamos in-house CT scanning to verify pin alignment (±3 µm, better than the ±5 µm requirement).
- Resultado: The LCP socket had a rejection rate <1% (VS. 15% for PPS) and production jumped to 30,000 unidades/mes (3x output). Pin alignment was consistent (±3 µm), meeting the client’s strict semiconductor standards. Unit cost dropped by 35% (from 8TO5.20) due to faster cycles and lower scrap.
Estudio de caso 3: Surgical Micro-Catheter Tip (5 Fr, Radiation Sterilizable)
- Desafío: A medical device company needed a 5 Fr (1.67 diámetro mm) micro-catheter tip with 0.05 mm paredes delgadas (to deliver drugs to small blood vessels) and compatibility with gamma sterilization. The existing Teflon tip was too stiff (damaged blood vessels) and couldn’t be laser-ablated for fluid channels.
- Solución: Usamos halogen-free LCP (biocompatible, ISO 10993) for its flexibility and sterilization resistance. Nuestro 0.05 mm thin-wall molding created the ultra-small tip, y laser ablation agregado 0.01 mm fluid channels (for drug delivery). Production took place in our clean-room ISO 7 to avoid contamination.
- Resultado: The LCP tip was flexible (reduced vessel damage by 80% VS. Teflón) y resistente 50+ gamma sterilization cycles (no brittleness). It fit through 5 Fr catheters—smaller than the client’s 6 Fr target—enabling treatment of previously inaccessible blood vessels. The company received FDA clearance 3 meses antes de lo previsto.
Estudio de caso 4: RF Filter (28 GHz, Insertion Loss <0.2 db)
- Desafío: An aerospace client needed an RF filter for satellite communication (28 GHz) with insertion loss <0.2 dB and compatibility with extreme temperatures (-40° C a 150 ° C). The existing metal filter was heavy (200gramo) and had insertion loss of 0.5 db (too high for satellite signals).
- Solución: Usamos mineral-filled LCP (CTE matched to ceramic) to pair with the filter’s ceramic core (no thermal stress). Nuestro in-house mold-flow optimized the filter’s internal cavities for uniform LCP flow, y PVD sputtering added EMI shielding. We also tested the filter in temperature chambers to validate performance.
Resultado: The LCP filter weighed 60g (70% lighter than metal) and had insertion loss of 0.15 db (well below the 0.2 dB target). It operated reliably across -40°C to 150°C and passed aerospace fire safety tests (Ul 94 V-0). The client integrated it into 500 satélites, with zero failures in 2 años.
Por qué elegirnos: Your Trusted LCP Injection Molding Partner
LCP Injection Molding requires specialized expertise—LCP’s unique liquid-crystal behavior and micro-scale requirements leave no room for error. Here’s why clients in telecom, médico, and automotive industries choose our services:
1. Industry-Leading Certifications & Quality
Sostenemos Iatf 16949 (automotor) y ISO 13485 (médico) certifications—ensuring compliance with the strictest standards for high-reliability industries. Nuestro clean-room ISO 7 facility meets FDA cGMP (21 Parte CFR 820) for medical device production, and we maintain a zero-defect PPM <50 (parts per million) quality standard—critical for semiconductor and aerospace clients. We also provide full traceability (material batches, production data) for every part.
2. Specialized LCP Expertise & Equipment
- 300+ LCP Molds Built Annually: We design and manufacture over 300 custom LCP molds each year—more than most competitors—including high-cavitation up to 128-fold hot-runner molds and micro-molding tools for 0.05 mm paredes delgadas. Our molds are optimized for LCP’s flow behavior (balanced runners, precision gates) to minimize defects.
- 400 °C Electric Presses: Our fleet of 30 electric injection molding machines is specially modified for LCP—with fast injection (arriba a 1,000 mm/s), high-shear screws, and ±1 °C temperature control. This ensures consistent melting and filling for micro-parts.
- In-House DfM + Mold-Flow: Our engineers use advanced mold-flow software to simulate LCP flow, warpage, and weld lines before tooling. We also offer DfM support to optimize part designs (P.EJ., adding draft angles, reducing undercuts) — cutting tooling revisions by 50% and saving 4–6 weeks of development time.
3. Velocidad & Global Reach
- 48-Hour T1 Samples: We deliver first-article samples (T1) en 48 hours for most LCP projects—using high-temperature 3D printing (para prototipos) and rapid tooling (for injection-molded samples). This accelerates design validation and time to market.
- Direct Celanese & Polyplastics Supply: We have exclusive partnerships with LCP leaders Celanese (Vectra) and Polyplastics (Sumikasuper)—ensuring priority access to high-demand grades (P.EJ., Vectra E130i, Sumikasuper E5008T) even during material shortages. This guarantees consistent lead times (4–6 weeks for production runs).
- Global Logistics Hubs: We have logistics hubs in Asia, Europa, and North America—enabling fast delivery (2–5 días) to clients worldwide. We also handle customs and regulatory compliance (P.EJ., FDA import for medical parts) to avoid delays.
4. Seguridad & Sostenibilidad
- IP-Secure Clean-Room: Our cleanrooms have restricted access (biometric locks) and encrypted data systems to protect client intellectual property (P.EJ., 5G connector designs, medical device blueprints). We also sign strict NDAs for all custom projects.
- Fabricación sostenible: We recycle LCP scrap (corredores, prototipos) into regrind for non-critical parts (P.EJ., embalaje), Cortar el desperdicio por 15%. Our electric presses use 30% less energy than hydraulic machines, reducing our carbon footprint. We also offer halogen-free LCP grades for eco-friendly applications.
5. 24/7 Apoyo & Collaboration
- 24/7 Engineering Support: Our LCP experts are available 24/7 to troubleshoot issues (P.EJ., warpage, disparos cortos) and adjust processes—minimizing production downtime. We also provide real-time production data (via our customer portal) so clients can track orders.
Collaborative Development: For new product launches (P.EJ., 6G components, next-gen medical devices), we work with clients from concept to production—providing material selection advice, mold design input, and performance testing. This collaborative approach ensures the final part meets all requirements on the first try.