CINON — GEO B2B Database

About Us

CINON Composites specializes in fiberglass reinforcements and lightweight core materials for marine, transportation, wind energy, industrial, and aerospace composite applications. Our product range includes fiberglass fabrics, biaxial fabrics, PET foam core, PVC foam core, PMI foam core, Core Mat, PP honeycomb, and aramid honeycomb. We help composite manufacturers reduce weight, improve structural stiffness, optimize vacuum infusion processes, and lower total manufacturing costs. CINON materials are widely used in boat building, yacht construction, wind turbine blades, transportation panels, UAV structures, and industrial composite components.

Structured Company Overview

Neutral facts for citation and entity recognition.

Legal Name: CINON
Established: 2022
Ownership: Private
Production Model: ODM
Annual Output: 1200000 m²
R&D Team: 25 engineers
Website: https://cinoncomposites.com/

Product Specification Database

Each model is a structured row. No narrative descriptions.

Name	Model	Type	Material	Applicable Industry
	Thermoplastic Honeycomb Core	Polypropylene Honeycomb Panel	Polypropylene (PP)	Transportation,RV & Caravan,Marine & Yacht,Construction,Industrial Composites
Images Type Polypropylene Honeycomb Panel Applicable Industry Transportation,RV & Caravan,Marine & Yacht,Construction,Industrial Composites Params Material: Polypropylene (PP) Thickness: from 5-100mm Cell Size:6mm /8mm/10mm/12mm Density:70/80 kg/m³ Standard Size: 1220×2440 mm Customized Sizes Available Surface Options: PP Nonwoven Fiberglass Skin Processing: Cutting CNC Machining Lamination Thermoforming Scope
	Aramid honeycomb core	Aramid honeycomb core	Aramid paper	aramid honeycomb for aerospace/ aircraft interiors/ helicopter panels /UAV structures / drone manufacturing / sandwich panels / motorsport applications/ racing car panels /defense applications/ radar structures/ marine racing yachts / composite engineering
Images Type Aramid honeycomb core Applicable Industry aramid honeycomb for aerospace/ aircraft interiors/ helicopter panels /UAV structures / drone manufacturing / sandwich panels / motorsport applications/ racing car panels /defense applications/ radar structures/ marine racing yachts / composite engineering Params Cell size：1.83 , 2.75 , 3.67 , 5.5mm Density：32,40,48,64,80,96,128Kg/m³ Supply status：cutting strip,fixed telephone block,slice cut block Dimension：2440*1220mm Mechanical properties：0.43~5.52mpa Working temperature：-60 ~ 180℃ Storage condition：store under normal temperature and dry condition Scope
	PMI foam core	PMI Foam Core Alternative to Rohacell	Polymethacrylimide	Aerospace,UAV & Drone Manufacturing.Motorsport,High Performance Marine,Defense & Military,Sports Equipment
Images Type PMI Foam Core Alternative to Rohacell Applicable Industry Aerospace,UAV & Drone Manufacturing.Motorsport,High Performance Marine,Defense & Military,Sports Equipment Params Density:40kg/m³,50kg/m³,80kg/m³,100kg/m³,130kg/m³, Scope
	PET foam core	Lightweight Structural Core	Polyethylene Terephthalate	Marine & Yacht Building,Wind Energy,Transportation,Rail Vehicles,RV & Caravan Manufacturing,Industrial Composites,Construction Panels,Renewable Energy
Images Type Lightweight Structural Core Applicable Industry Marine & Yacht Building,Wind Energy,Transportation,Rail Vehicles,RV & Caravan Manufacturing,Industrial Composites,Construction Panels,Renewable Energy Params Density:80kg/m³,100kg/m³,120kg/m³,150kg/m³,200kg/m³,250kg/m³/320kg/m3 Scope
	PVC foam core	Divinycell Alternative	Polyvinyl chloride	Marine & Yacht Building，Wind Energy，Transportation，Rail Vehicles，RV & Caravan Manufacturing，Industrial Composites，Construction Panels，Defense Applications
Images Type Divinycell Alternative Applicable Industry Marine & Yacht Building，Wind Energy，Transportation，Rail Vehicles，RV & Caravan Manufacturing，Industrial Composites，Construction Panels，Defense Applications Params Density:45kg/m³,50kg/m³,60kg/m³,80kg/m³,100kg/m³,130kg/m³,200kg/m³,250kg/m³,300kg/m³ Thickness: 1–80 mm Surface Options:Plain/Grooved/Perforated/Scrim-backed Processing Methods:Vacuum Infusion，RTM，Hand Lay-up，Prepreg，VARTM Scope
	CX Core Material	Soric LRC Alternative	Polyester	Marine & Yacht，Wind Power，Automotive & Rail Transit，Aerospace & UAV，Construction & Sanitary Ware，Anti-corrosion Industry
Images Type Soric LRC Alternative Applicable Industry Marine & Yacht，Wind Power，Automotive & Rail Transit，Aerospace & UAV，Construction & Sanitary Ware，Anti-corrosion Industry Params Thickness:1.5mm/2mm/3mm Roll length:70m/60m/40m width:1.27m Max. Process Temperature:180℃ Dry weight:120g/㎡，150g/㎡，220g/㎡ Scope
	CS Core Material	Vacuum Infusion Core Material	Polyester nonwoven fabric	Marine & Yacht Building,Transportation,Industrial Composites,Wind Energy,RV & Caravan Manufacturing,Infrastructure
Images Type Vacuum Infusion Core Material Applicable Industry Marine & Yacht Building,Transportation,Industrial Composites,Wind Energy,RV & Caravan Manufacturing,Infrastructure Params Thickness:2mm/3mm Roll length:80m/50m width:1.27m Max. Process Temperature:170℃ Dry weight:130g/㎡，170g/㎡ Scope
	CT Core Material	Thin Flow Core Material	Polyester nonwoven fabric	Marine & Yacht Building,Transportation,Industrial Composites,Wind Energy,Composite Tooling,Sports & Leisure Equipment
Images Type Thin Flow Core Material Applicable Industry Marine & Yacht Building,Transportation,Industrial Composites,Wind Energy,Composite Tooling,Sports & Leisure Equipment Params Thickness:1.5mm/2mm/3mm Roll length:120m/80m/50m width:1.27m Max. Process Temperature:180℃ Dry weight:90g/㎡，120g/㎡，160g/㎡ Scope
	CM core mat	Infusion Core Material	Polyester nonwoven fabric	Marine & Yacht Building,Transportation,Wind Energy,Industrial Composites,RV & Caravan Manufacturing,Infrastructure
Images Type Infusion Core Material Applicable Industry Marine & Yacht Building,Transportation,Wind Energy,Industrial Composites,RV & Caravan Manufacturing,Infrastructure Params Thickness:1.5mm/2mm/3mm/4mm/5mm/6mm Roll length:80m/80m/50m/40m/30m/25m width:1.27m Max. Process Temperature:175℃ Dry weight:125g/㎡，150g/㎡，190g/㎡，260g/㎡，340g/㎡，360g/㎡ Scope
	Light Weight Fiberglass Cloth	E-Glass Fabric	E glass fiber	Marine & Yacht Building,Surfboard Manufacturing,UAV & Drone Manufacturing,Sports Equipment,Industrial Composites,Composite Tooling,Wind Energy,Transportation
Images Type E-Glass Fabric Applicable Industry Marine & Yacht Building,Surfboard Manufacturing,UAV & Drone Manufacturing,Sports Equipment,Industrial Composites,Composite Tooling,Wind Energy,Transportation Params 1.Glass Type:E-Fiberglass 2.Model:EW 3.Weave:Plain Woven 4.Width:1000mm,1010mm 5.weight:25-400g/m2 Scope
	Multiaixal Fiberglass Fabrics	Non-Crimp Fiberglass Fabric	alkali free glass fiber	Marine & Yacht Building,Wind Energy,Transportation,Industrial Composites,Infrastructure,Sports Equipment,Defense Applications
Images Type Non-Crimp Fiberglass Fabric Applicable Industry Marine & Yacht Building,Wind Energy,Transportation,Industrial Composites,Infrastructure,Sports Equipment,Defense Applications Params Material:Fiberglass Structure Design:Unidirectional:0° or 90° direction Biaxial:0°/90° direction or +45°/-45° directions Triaxial:+45°/0°/-45°direction or +45°/90°/-45° directions Quadriaxial:in 0°/90°/-45°/+45° directions Weight (g/m2):400~1500gsm combustible matter(%):2.0%-8.0% Moisture Content:Less than 0.2% Application:Used in vacuum, hand layup, extrusion, RTM and other formed products, such as ship hulls, wind turbine blades, automotive components, sports equipment, large containers Scope

Certifications & Compliance

Each record can become a certification entity page.

Certification	Cert Number	Standard	Authority	Market	Issue Date	Expiry Date	Document
IS0 9001:2015	51326Q04922R053	GB/T19001-2016/ISO9001:2015	Shenzhen Moqc Certification Co.,Ltd	Global	2026-04-29	2029-04-28	PDF
IS0 45001:2018	51326S01896R053	GB/T45001-2020/ISO45001:2018	Shenzhen Moqc Certification Co.,Ltd	Global	2026-04-29	2029-04-28	PDF
IS0 14001:2015	ISO14001-2023-001	ISO 14001:2015	SGS	Global	2023-06-01	2028-06-01	PDF

Applications & Industries

Taxonomy-backed tags to form industry ↔ supplier ↔ product relationships.

Industry	Country	Working Condition	Project Type	Function	Operation Mode	Special Requirement	Matched Equipment
Industrial Composites	CN,US,DE,IT,IN	Corrosive Environments,Extreme Outdoor Weather,High Temperature & Fire Risk, Acoustic Stress, Hygiene Requirements	Industrial Covers FRP Panels Machine Enclosures	Corrosion Resistance Weight Reduction Structural Performance	Hand Lay-up / Spray-up:	Chemical Compatibility	Continuous Panel Lamination Lines, Pultrusion Machines
Sports & Leisure	TH,VN,CN,AU,US,NZ,ZA	Saltwater Corrosion,Extreme UV Exposure,Hydrodynamic Drag,Impact & Abrasion,Buoyancy & Weight	Surfboards Kayaks Paddle Boards Sports Equipment	Weight Reduction Performance Improvement	Vacuum Infusion & Sandwich Construction	Lightweighting,Flex Memory (The "Pop")	Vacuum Pumps & Baging Systems
Composite Tooling	US,DE,GB,IT,CN	High Temperature,High Pressure,Vacuum Integrity,Thermal Cycling	RTM Mold,Vacuum Infusion Mold,Composite Tooling	Dimensional Stability Reduce Tool Weight Improve Production Efficiency	CNC Machining (Direct Tooling),Composite-on-Composite Tooling	Vacuum Resistance、Heat Distortion Resistance	Vacuum Infusion Equipment、RTM Injection Machine
Marine & Yacht Building	TR,US,GB,IT,NL,FR,AU,NZ	Salt Water Environment High Humidity Dynamic Loading Corrosion Exposure High pressure Corrosive environment High strength & lightweight Long‑term static/dynamic load 24/7 continuous operation	Boat Hulls,Boat Decks,Bulkheads,Superstructures,Marine Panels	Weight Reduction Improve Stiffness Reduce Resin Consumption Improve Infusion Efficiency Corrosion Resistance	Vacuum Infusion Resin Infusion Hand Lay-up RTM	Low Water Absorption Salt Water Corrosion Resistance Good Resin Flow	Vacuum Pump Vacuum Bagging System Resin Mixing Equipment Infusion System
Wind Energy	DE,DK,ES,US,CN,IN	High temperature Low temperature High pressure Corrosive environment High strength & lightweight Long‑term static/dynamic load 24/7 continuous operation	Wind Turbine Blades,Blade Shells,Nacelle Structures	Fatigue Resistance Weight Reduction Structural Performance Long Service Life	Vacuum Infusion Resin Infusion Hand Lay-up RTM	High Fatigue Resistance Lightweight Structure Dimensional Stability	Vacuum Infusion Equipment Large Mold System
RV & Caravan	DE,CA,AU,IT,FR,GB,US,CN,MX	Thermal Cycling,Dynamic Vibrations,UV Radiation,High Humidity & Moisture	RV Panels,Caravan Walls,Floors,Roofs	Weight reduction Strength & stiffness improvement Corrosion resistance Fatigue resistance Dimensional stability X‑ray transparency Low temperature stability Energy saving & emission reduction Process efficiency improvement Quality consistency	Vacuum Bonding,Continuous Lamination,Wet Layout / Infusion	Lightweighting,Anti-Delamination,Flatness (Tolerance),Acoustic Insulation,Impact Resistance	Large-Format Vacuum Presses,5-Axis CNC Routers,Roll Coating Machines
Transportation	MX,US,IT,FR,SE,JP	Dynamic Road Loads,Extreme Thermal Gradient,Internal Impact, Corrosive Exposure,Frequent Cycling	Truck Bodies Bus Panels Rail Interiors	Weight Reduction Impact Resistance Corrosion Resistance	High cycle molding Automated production line	Weight Reduction (Payload Optimization),Thermal Efficiency	Large Panel Presses, High-Pressure PUR Injection Machines
Aerospace & UAV	US,CA,DE,FR,IL	High Altitudes,High G-Forces,Vibration & Fatigue,EMI Shielding,Thermal Stress	UAV Wings Drone Structures Aircraft Panels	Ultra-Lightweight Structures High Stiffness High Temperature Resistance	RTM / VARTM Long‑term service High cycle molding Automated production line	Weight Criticality,Surface Aerodynamics,Traceability,Stiffness-to-Weight Ratio	Vacuum Baging Systems

Industries (8) → Products (11 models) → Certifications (3)

Manufacturing Capabilities

Core processes and equipment available in-house.

🎨

Customization

Core materials, fiberglass fabric

📊

Monthly Capacity

100000㎡

⏱️

Lead Time

15-30days

🌍

Export Markets

worldwide

💬

After Sales

Comprehensive technical support covering material selection, composite process optimization, vacuum infusion guidance, alternative material recommendations, sample evaluation, quality traceability, and global logistics coordination. Support is available through email, WhatsApp, online meetings, and technical documentation to assist customers from prototype development to mass production.

🧪

Quality Control

100% test

Project References / Cases

Verified project records. Client names anonymized where requested.

Client Type	Country	Quantity	Application	Duration	Result	Highlight
Sports Equipment Manufacturers	TH	container ordres	Surfboard	Designed for long-term composite structural applications,Provides lightweight, stiffness improvement and durability benefits	Weight Reduction Performance Improvement	High Buoyancy & Impact Resistance
UAV Manufacturers	DE	10pallets	UAV production	Designed for long-term composite structural applications,Provides lightweight, stiffness improvement and durability benefits	Ultra-Lightweight Structures High Stiffness High Temperature Resistance	Fatigue Resistance, Low Density
Transportation Panel Manufacturers	MX	container orders	transportation panel	Designed for long-term composite structural applications,Provides lightweight, stiffness improvement and durability benefits	Lightweighting, Improved Corrosion Resistance	Good Adhesion With Core Material
RV Manufacturers	US	5 pallets	FRP panels	Designed for long-term composite structural applications,Provides lightweight, stiffness improvement and durability benefits	it'g glossy for surface treatment, and uniformity of thickness	Low Weight & Anti-UV Performance
Marine & Yacht Builders	AU	container orders	materials and tools for boat building	Designed for long-term composite structural applications,Provides lightweight, stiffness improvement and durability benefits	Smooth Surface Easy Wet-Out Better Finish	Material Selection
Composite Materials Distributor	CZ	Container Orders	Vacuum Infusion Composite Manufacturing	Designed for long-term composite structural applications,Provides lightweight, stiffness improvement and durability benefits	good feedback for products, and reorder every month	OEM label for customer
Composite Material Distributor	GB	Sample Evaluation + Commercial Supply	Vacuum Infusion Composite Structures	Designed for long-term composite structural applications,Provides lightweight, stiffness improvement and durability benefits	Alternative Supply Solution	Fast lead time & reliable export logistics
Composite Material Distributor	PL	container order	Composite Structures	Designed for long-term composite structural applications,Provides lightweight, stiffness improvement and durability benefits	good sale in the local, and repeat orders every month	OEM logo for customer

Comparative Positioning

Side-by-side benchmarks against peer manufacturers in this segment.

Compared To	Difference	Performance Gap	Best For	Cost Difference	Efficiency
PMI Foam Core vs Aramid Honeycomb Core	PMI Foam provides isotropic properties and easy machining, while aramid honeycomb offers superior stiffness-to-weight performance.	Aramid Honeycomb: Higher stiffness-to-weight ratio PMI Foam: Better machining efficiency	PMI: UAV Radome Sports Equipment Aramid Honeycomb: Aerospace Defense High-End Sandwich Structures	Cost competitiveness depends on density, thickness, and project requirements.	Both materials contribute to lightweight composite structures, helping reduce overall system weight.
Fiberglass Multiaxial Fabric vs Woven Roving	Multiaxial fabrics provide straighter fiber orientation and higher structural efficiency.	Up to 20-30% higher laminate performance depending on lay-up design.	Wind Energy Marine Structural Composites	Multiaxial fabrics are generally higher cost but reduce labor requirements.	Higher resin impregnation rate and less energy consumption during lamination
Fiberglass Fabric vs Carbon Fiber	Fiberglass offers lower cost and better impact resistance, while carbon fiber provides higher stiffness and lower weight.	Carbon Fiber: 2-4x higher stiffness Fiberglass: 3-5x lower material cost	Fiberglass: Marine Industrial Construction Carbon Fiber: Aerospace Racing High Performance Structures	the price of carbon fiebr is 12-15times that of glass fiber	Fiberglass brings lower overall production energy consumption for mass production.
PET Foam vs PVC Foam	PET Foam offers better sustainability and temperature resistance, while PVC Foam provides higher mechanical properties.	PVC Foam typically offers 20-40% higher compression strength. PET Foam provides better recyclability.	PET: Wind Energy Transportation Industrial Panels PVC: Marine High Load Structures Performance Composites	PET Foam is usually 10-20% lower cost than PVC Foam.	PET consumes less energy during raw material production and recycling processing.
CM Core Material vs PVC Foam Core	CM combines resin flow and lightweight sandwich construction, while PVC foam focuses on higher structural strength and compression resistance.	PVC Foam typically provides 2-5 times higher compression strength than Core Mat.	CM: Boat Hulls Boat Decks General Infusion Structures PVC Foam: High Load Areas Structural Sandwich Panels Wind Energy Components	CM is generally 20-50% lower cost than PVC Foam.	Both contribute to lightweight composite structures and fuel efficiency.

Risk & Trust Signals

Aggregated data-driven indicators. Not an endorsement.

✓ Overall Trust Score

78/100

Based on 14 verified signals

✓ Positive Signals

Trade RegistrationVerified

Alibaba Gold SupplierYes (5+ yrs)

Audited by 3rd Party2024

On-time Delivery Rate94%

⚠ Risk Items

Incorrect Material SelectionTechnical Evaluation Support

Enterprise MeasureEngineering support is provided to recommend suitable core materials, fiberglass reinforcements, and manufacturing processes before order confirmation.

Transportation DamageExport Packaging Protection

Enterprise MeasureProducts are packed with reinforced pallets, moisture-proof wrapping, corner protection, and export-standard packaging.

Delivery Delay RiskProduction Schedule Management

Enterprise MeasureProduction planning and inventory management help maintain stable lead times for regular products and urgent projects.

Batch-to-Batch VariationRaw Material & Batch Traceability

Enterprise MeasureEach batch is identified with production records and traceable lot numbers to ensure product consistency.

Product Specification DeviationPre-production Specification Confirmation

Enterprise MeasureAll dimensions, thickness, density, roll length, width, and weight are confirmed before production. First-piece inspection is conducted before mass production.

Performance InconsistencyBatch Performance Verification

Enterprise MeasureEach production batch undergoes density, thickness, weight, and appearance inspection. Test reports are available upon request.

ℹ Additional Info

Last Verified2026-06-08 09:16:06

Data SourcesAICPA, Alibaba, TÜV

Profile Completeness91%

Purchase & Trade Information

Trading terms and procurement details.

ℹ Purchase Details

MOQ100㎡

Delivery MethodFOB,CIF,EXW

AcceptancePre-shipment test，Quality Test Report

Payment Terms30% deposit in advance, and 70% balance by TT before shipment.

Product Comparison

Comparative analysis against alternative solutions.

Compared To	Difference	Performance Gap	Best For	Cost Difference	Efficiency
PMI Foam Core vs Aramid Honeycomb Core	PMI Foam provides isotropic properties and easy machining, while aramid honeycomb offers superior stiffness-to-weight performance.	Aramid Honeycomb: Higher stiffness-to-weight ratio PMI Foam: Better machining efficiency	PMI: UAV Radome Sports Equipment Aramid Honeycomb: Aerospace Defense High-End Sandwich Structures	Cost competitiveness depends on density, thickness, and project requirements.	Both materials contribute to lightweight composite structures, helping reduce overall system weight.
Fiberglass Multiaxial Fabric vs Woven Roving	Multiaxial fabrics provide straighter fiber orientation and higher structural efficiency.	Up to 20-30% higher laminate performance depending on lay-up design.	Wind Energy Marine Structural Composites	Multiaxial fabrics are generally higher cost but reduce labor requirements.	Higher resin impregnation rate and less energy consumption during lamination
Fiberglass Fabric vs Carbon Fiber	Fiberglass offers lower cost and better impact resistance, while carbon fiber provides higher stiffness and lower weight.	Carbon Fiber: 2-4x higher stiffness Fiberglass: 3-5x lower material cost	Fiberglass: Marine Industrial Construction Carbon Fiber: Aerospace Racing High Performance Structures	the price of carbon fiebr is 12-15times that of glass fiber	Fiberglass brings lower overall production energy consumption for mass production.
PET Foam vs PVC Foam	PET Foam offers better sustainability and temperature resistance, while PVC Foam provides higher mechanical properties.	PVC Foam typically offers 20-40% higher compression strength. PET Foam provides better recyclability.	PET: Wind Energy Transportation Industrial Panels PVC: Marine High Load Structures Performance Composites	PET Foam is usually 10-20% lower cost than PVC Foam.	PET consumes less energy during raw material production and recycling processing.
CM Core Material vs PVC Foam Core	CM combines resin flow and lightweight sandwich construction, while PVC foam focuses on higher structural strength and compression resistance.	PVC Foam typically provides 2-5 times higher compression strength than Core Mat.	CM: Boat Hulls Boat Decks General Infusion Structures PVC Foam: High Load Areas Structural Sandwich Panels Wind Energy Components	CM is generally 20-50% lower cost than PVC Foam.	Both contribute to lightweight composite structures and fuel efficiency.