Plaques en fibre de carbone pour chaussures de football et crampons de football

Table des matières

We manufacture carbon fiber sole plates and inserts for football boot and soccer cleat brands, footwear factories, and wholesale distributors. Work is available as OEM (your design, our production) or ODM (we help develop the plate from a performance target). Existing mold matching is available for common outsole geometries, and custom mold development is available for proprietary shapes. This page is part of the manufacturing catalog at chinacarbonfibers.com.

This page covers plate structure and specification for sports footwear, not orthotic or medical foot-support products.

Why Carbon Fiber Is Used in Football Boot Sole Plates

A football boot’s sole plate has three structural jobs that most polymer plates struggle to do at the same time: stay thin enough not to add stack height, stay light enough not to slow the player down, and stay stiff enough to transfer force efficiently during sprinting, cutting, and push-off.

Carbon fiber composite plates handle this combination better than nylon, TPU, or fiberglass at equivalent thickness, for a few structural reasons:

  • Directional stiffness control. Because carbon fiber layup can be oriented (0°, 45°, 90°, or a custom combination), a plate can be made stiff in the direction of forward propulsion while retaining a controlled amount of flex elsewhere — something isotropic plastics can’t replicate without adding thickness.
  • Torsional stability. A properly laid-up carbon plate resists twisting under lateral load, which matters during cutting and direction changes on a football pitch.
  • Weight-to-stiffness ratio. For the same bending stiffness, a carbon fiber plate is typically thinner and lighter than a nylon or fiberglass-reinforced plate, which is why carbon plates are common in higher-tier boot lines.
  • Fatigue resistance. Carbon composite plates hold their shape over repeated flex cycles better than many thermoplastics, which degrade or take a permanent set after extended use.

None of this makes carbon fiber the right choice for every price tier — it costs more to tool and produce than a standard nylon plate, which is why it tends to appear in mid-to-premium boot lines rather than entry-level models.

Existing Mold Options for Soccer Cleat Carbon Plates

Tooling cost is usually the single biggest line item in a new plate program, so mold strategy is worth addressing directly.

  • If your target plate shape and size range are close to one of our existing mold profiles, we can quote against that mold with only minor edge or hole modifications, which significantly reduces upfront tooling cost and lead time.
  • If your outsole geometry, stud pattern, or size grading is different from what we currently tool, a custom mold is required. We’ll tell you clearly during the quoting stage which category your project falls into — we don’t quote “existing mold” pricing against a project that actually needs a new tool.
  • For brands still finalizing outsole design, we can work from a 3D file, a physical sample boot, or a 2D drawing to determine mold feasibility before committing to tooling cost.

Custom Carbon Fiber Plate Development

We produce several plate configurations depending on where in the boot the reinforcement is needed and what the target flex profile is.

Full-length carbon fiber sole plates run the length of the boot and provide overall structural support and torsional control. These are typical in performance/pro-tier boots where the whole sole needs consistent stiffness.

Plaques en fibre de carbone à l'avant-pied cover only the front portion of the sole and are tuned for propulsion during acceleration and sprinting, while allowing more natural flex through the midfoot and heel.

Midfoot reinforcement plates are used specifically for torsional and anti-twist support without adding stiffness to the forefoot flex zone — common in cleats where cutting and lateral stability matter more than straight-line propulsion.

Custom cleat/stud opening design — where the plate needs pre-positioned stud mounting points, drainage slots, or cutouts for molded outsole features, we build these into the mold or CNC finishing stage rather than post-processing after molding, which keeps hole tolerances tighter.

Carbon Fiber Plate Options for Football Boot OEM Projects

As a starting point before a full spec review, here’s how project type typically maps to plate configuration:

Type de projetTypical Plate ConfigurationAcheteur type
Pro-tier / performance football bootsSemelle sur toute la longueur, rigidité plus élevéeFootwear brand, product development team
Speed / lightweight bootsForefoot carbon plate, propulsion-tuned layupSports shoe developer
Cleat torsional reinforcementMidfoot-only plateOEM shoe factory adding stiffness to an existing sole
Standard-geometry projectsPlate matched to an existing mold profileDistributor or wholesale buyer sourcing at volume

This table is a starting reference, not a substitute for a spec review — actual plate configuration is confirmed against your drawing, sample, or performance target.

Ready to move forward? Send your football boot outsole drawing, a physical sample shoe, or your target plate size range, and we’ll confirm whether it matches an existing mold or needs custom tooling, along with a quotation.

Material and Layup Options

  • Forme fibreuse : prepreg unidirectional (UD) carbon fiber for directional stiffness, or woven fabric (3K/12K twill) where a visible weave finish or more balanced multi-axis stiffness is needed.
  • Qualité de la fibre : standard modulus options such as T300/T700-class carbon fiber, selected based on the stiffness-to-cost balance the project needs — higher modulus isn’t automatically the right call for every application, and we’ll discuss the tradeoff during spec review rather than defaulting to the most expensive material.
  • Layup direction: custom ply orientation to bias stiffness along the propulsion axis, across the forefoot, or torsionally, depending on the target flex behavior.
  • Thickness: built to the stiffness target and shoe size range rather than a single fixed number — thickness and layup are specified together, since the same thickness in a different layup produces a different flex profile.

Processus de fabrication

  1. Customer provides a plate drawing, 3D file, physical sample, or reference outsole/shoe model, along with the target size range.
  2. We review geometry and confirm the stiffness target and flex zone with you.
  3. Mold selection (existing mold match) or custom mold development, depending on geometry.
  4. Prepreg carbon fiber layup according to the confirmed ply schedule.
  5. Hot press / compression molding under controlled heat and pressure.
  6. CNC trimming and hole/slot drilling to spec.
  7. Edge finishing and surface treatment.
  8. Fit check against the outsole or a sample shoe before bulk approval.
  9. Bulk production, in-line inspection, and packing.

What We Need for an Accurate Quotation

Sending the following up front shortens the quoting cycle considerably:

  • 2D drawing, 3D file, or a physical sample
  • Plage de taille cible de chaussures
  • Full-length or forefoot plate (or midfoot-only reinforcement)
  • Required thickness and stiffness target (or the flex behavior you’re trying to achieve)
  • Exigences en matière d'ouverture de trou, de fente ou de goujon
  • Surface finish preference (visible weave vs. matte/painted)
  • Order quantity, and whether an existing mold is acceptable or a custom mold is required

Without a drawing or sample, we can still provide a rough budgetary range based on comparable projects, but a firm quote requires at least one of the above reference files.

Wholesale and Bulk Production

For distributors and footwear brands sourcing at volume:

  • Sample and trial-batch development is available before committing to a bulk order, so you can validate stiffness and fit on a small run first.
  • Bulk production is scaled to your order volume, with standard QC checkpoints at each stage (see below).
  • Shipping terms are available as EXW, FOB, or DDP depending on your logistics setup.

Football boot and soccer cleat plates are one line within our broader gamme de produits personnalisés en fibre de carbone.

Quality Control for Football Boot Carbon Plates

  • Thickness measurement across the plate (not just at the center)
  • Weight check per plate, plate-to-plate consistency
  • Edge smoothness and delamination check
  • Hole/slot position tolerance inspection
  • Surface inspection for voids, resin-rich areas, or weave misalignment
  • Comparaison de la rigidité avec un échantillon de référence approuvé
  • Fit check against the reference outsole or shoe last before bulk shipment

Exemples de projets

Les exemples ci-dessous décrivent des types de projets et des spécifications représentatifs de ceux que nous prenons en charge. Les détails sont généraux et ne font référence à aucune marque en particulier, afin de préserver la confidentialité de nos clients.

Example: forefoot plate for a speed-boot project Application: lightweight sprint-focused football boot. Configuration: forefoot-only carbon plate. Fiber: prepreg UD carbon, layup biased along the propulsion axis. Thickness: specified against a target flex range rather than a fixed number. Mold: matched to an existing forefoot mold profile with minor edge modification. Outcome of the process: sample approved after one round of stiffness adjustment, moved to bulk production.

Example: full-length plate with custom mold Application: mid-tier football boot line requiring a proprietary outsole shape. Configuration: full-length plate with custom stud-opening layout. Fiber: woven 3K twill for a visible-weave finish requested by the brand. Mold: new tooling developed from the customer’s 3D outsole file. Outcome of the process: new mold built, sample matched to the reference outsole on the first fit check.

[Placeholder for future case studies — add real, anonymized project photos and specifics here as they become available: sample plate photos, mold photos, fit-check photos with ALT text such as “carbon fiber plate for football boots OEM sample” and “soccer cleat carbon fiber sole plate existing mold.”]

These examples reflect the sports footwear side of our composite manufacturing work — read more about our factory on our page d'accueil. For orthotic or arch-support components rather than sports footwear plates, see our carbon fiber foot inserts page.

FAQ

Pouvez-vous fabriquer des plaques en fibre de carbone pour des bottines de football ?

Yes. We produce full-length, forefoot, and midfoot carbon fiber sole plates for football boots and soccer cleats, either against your drawing/sample or developed from a stiffness/flex target you provide.

Do you have existing molds for soccer cleat plates?

We maintain a set of existing mold profiles for common plate shapes and size ranges. If your required geometry is close to one of these, we can quote against the existing mold; if it’s a different geometry, a custom mold will be needed.

Pouvez-vous personnaliser la rigidité de la plaque en fibre de carbone ?

Yes. Stiffness is controlled through fiber grade, layup orientation, and thickness together — we specify these as a set based on your target flex behavior, not as isolated variables.

Can you make both full-length and forefoot carbon fiber plates?

Yes, and midfoot-only reinforcement plates as well, depending on where structural support is needed in the boot.

What files do you need for OEM football boot plate production?

A 2D drawing, 3D file, or physical sample is the fastest path to an accurate quote. If none of these are available yet, we can still work from a written spec and target size range for a preliminary estimate.

Can you provide wholesale pricing for carbon fiber sole inserts?

Yes, pricing scales with order volume, plate complexity, and whether tooling is existing or custom. Send your specs and target quantity for a tiered quote.

Quel est le délai typique pour l’échantillonnage et la production en vrac ?

Sample development timelines depend on whether an existing mold is used or a new mold needs to be built; bulk production timelines depend on order volume. We’ll confirm both during the quoting stage once your specs are reviewed.

Not sure which plate type fits your project? Our Guide des semelles de chaussures en fibre de carbone walks through the main types and how to choose.

Contrôleur de température pour moule de pressage à chaud de fibres de carbone

Processus de moulage par pressage à chaud des matériaux composites en fibre de carbone

Notre usine utilise un procédé avancé de pressage à chaud de la fibre de carbone avec un moule en acier P20, garantissant une grande efficacité, précision, durabilité et rentabilité pour une production de qualité.

Autoclave pour fibre de carbone

Notre usine exploite plus de 100 autoclaves à haute pression, utilisant des moules en aluminium et l'induction sous vide pour façonner la fibre de carbone avec précision. Une température et une pression élevées renforcent la résistance, la stabilité et la qualité impeccable.

Autoclave en fibre de carbone
Centre de recherche technologique sur les fibres de carbone

Centre de recherche en technologie d'ingénierie de la fibre de carbone

Notre centre de recherche sur les fibres de carbone stimule l'innovation dans les domaines des nouvelles énergies, de l'intelligence et de la conception légère, en utilisant des composites avancés et Krauss Maffei Fiber Form pour créer des solutions de pointe axées sur le client.

Questions fréquemment posées

Voici les réponses aux questions fréquemment posées concernant notre usine expérimentée de produits en fibre de carbone.

Nous produisons une large gamme de composants en fibre de carbone, y compris des pièces automobiles, des pièces pour motos, des composants aérospatiaux, des accessoires marins, des équipements sportifs et des applications industrielles.

Nous utilisons principalement des fibres de carbone préimprégnées de haute qualité et des composites renforcés de fibres de carbone à fort toron pour assurer la résistance, la durabilité et la légèreté.

Oui, nos produits sont revêtus de finitions protectrices contre les UV pour garantir une durabilité longue durée et maintenir leur apparence polie.

Oui, nos installations et équipements sont capables de produire des composants en fibre de carbone de grande taille tout en maintenant la précision et la qualité.

Quels sont les avantages d'utiliser des produits en fibre de carbone ?
La fibre de carbone offre un rapport résistance/poids exceptionnel, une résistance à la corrosion, une rigidité, une stabilité thermique et une apparence élégante et moderne.

Nous desservons les secteurs de l'automobile, de la moto, de l'aérospatiale, du maritime, du médical, du sport et de l'industrie, en mettant l'accent sur des composants en fibre de carbone légers et haute performance.

Oui, nous proposons des solutions en fibre de carbone personnalisées adaptées à vos spécifications, y compris des designs, tailles et motifs uniques.

Nous utilisons des technologies avancées telles que le moulage en autoclave, le pressage à chaud et la mise sous vide, garantissant précision, stabilité et qualité à chaque produit. Avec le thème Hello Elementor, nous essayons de nous assurer qu'il fonctionne parfaitement avec tous les thèmes majeurs.

Nous utilisons des moules en aluminium et en acier P20, conçus pour la durabilité et une grande précision, afin de créer des composants complexes et précis en fibre de carbone.

Nos produits subissent des contrôles qualité rigoureux, incluant la précision dimensionnelle, l'intégrité des matériaux et des tests de performance, afin de respecter les normes de l'industrie.

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