Quelle est la différence entre les plaques de mâchoires fixe et mobile ?

La plaque de mâchoire fixe est montée sur le bâti fixe du concasseur et fournit la surface de concassage contre laquelle le matériau est réduit. La plaque de mâchoire mobile (oscillante) est fixée au bras oscillant et assure le mouvement de concassage alternatif. Les deux plaques sont soumises à des forces d'usure similaires, mais la mâchoire mobile s'use généralement plus vite à l'extrémité de décharge en raison du mouvement excentrique. Les plaques doivent être commandées par jeux appariés pour garantir des performances de concassage constantes.

Comment choisir entre les nuances Mn14, Mn18 et Mn22 ?

Le choix de la nuance dépend du matériau d'alimentation et du régime de concassage. Le Mn14 convient aux roches tendres (calcaire, grès) avec une abrasion modérée. Le Mn18 est la nuance standard pour les roches dures (granit, basalte, gneiss), offrant un bon équilibre entre potentiel d'écrouissage et ténacité. Le Mn22 est réservé au concassage primaire le plus exigeant de roches dures très abrasives où un écrouissage maximal est nécessaire. Les nuances supérieures coûtent plus cher mais peuvent offrir un coût par tonne inférieur dans les applications appropriées.

Quand dois-je passer aux plaques de mâchoires composites TiC ?

Les inserts TiC (carbure de titane) sont justifiés lorsque les plaques Mn22 standard s'usent significativement plus vite que la durée de campagne visée dans les applications très abrasives. Les tiges de TiC (3200 HV) fournissent une dureté localisée sur la face de concassage. Si vos plaques Mn22 actuelles offrent une durée de vie acceptable, le TiC n'apporte aucun bénéfice. Le TiC n'est pas non plus recommandé pour les applications avec des métaux indésirables fréquents de grande taille, car les inserts peuvent être endommagés par des impacts ponctuels.

Les plaques de mâchoires peuvent-elles être retournées pour prolonger leur durée de vie ?

Oui, la plupart des plaques de mâchoires sont conçues pour être retournées. Les plaques fixes peuvent généralement être retournées à 180° à 30-40 % d'usure pour exposer la face non usée. Les plaques mobiles peuvent également être retournées lorsqu'une extrémité présente plus d'usure que l'autre (courant à l'extrémité de décharge). Le retournement peut presque doubler la durée de vie effective de chaque plaque. Inspectez toujours les plaques pour détecter les fissures avant le retournement — les plaques endommagées doivent être remplacées, pas retournées.

Comment mesurer correctement le réglage côté fermé (CSS) ?

Le CSS est mesuré à l'extrémité de décharge de la cavité du concasseur à mâchoires lorsque la mâchoire mobile est à son point le plus proche de la mâchoire fixe (position fermée). Utilisez une tige de mesure ou un mètre en plusieurs points sur la largeur de décharge et prenez la valeur minimale. Comparez avec les spécifications OEM pour votre taille de produit cible. Les plaques doivent être remplacées lorsque l'usure ne permet plus de régler le CSS selon les spécifications.

Quelles informations ATF a-t-il besoin pour établir un devis de plaques de mâchoires ?

Au minimum, ATF a besoin de : la marque et le modèle du concasseur, ou la référence OEM, ou des dessins dimensionnels avec tolérances. Pour les recommandations de matériaux, fournissez également le type de matériau d'alimentation et votre expérience d'usure actuelle. Des photos des plaques usées et de la plaque signalétique du concasseur sont utiles si les références ne sont pas disponibles. ATF peut effectuer le croisement des références pour la plupart des grands modèles de concasseurs à mâchoires afin de fournir des plaques de remplacement correctement dimensionnées.

Pièces pour Concasseur à Mâchoires

Plaques de mâchoires | Fixe et mobile | ATF

Plaques de mâchoires fixes et mobiles en manganèse Mn14-Mn22. Profil, nuance et épaisseur selon chambre, granulométrie et dureté de roche.

Mâchoire Fixe Mâchoire Mobile Plaques de joue

Jaw Crusher Wear Parts

What Jaw Plates Do and Why Material Matters

Jaw crusher plates (also called jaw dies or jaw liners) are the primary wear components in jaw crushers. The fixed jaw plate mounts to the stationary frame, while the swing jaw plate (or movable jaw) attaches to the pitman and provides the crushing motion. Together, they create the crushing chamber that reduces feed material through compressive force.

Material selection directly determines wear life and cost per tonne. All ATF jaw plates are manufactured from austenitic manganese steel, which work-hardens under the compressive impact of crushing. The key variables are manganese content (affecting work-hardening potential) and chromium content (affecting initial hardness and carbide formation). Higher manganese grades work-harden to higher surface hardness but may be less cost-effective in lower-abrasion applications.

35+ Years Experience

ISO 9001 Certified

Factory Direct

Heavy duty manganese jaw crusher plates for primary crushing

Precision-Cast Jaw Plates

Manufactured to OEM dimensional tolerances

Complete Range

Manganese Grade Selection by Application

Five jaw plate options covering every application from clean limestone to highly abrasive mining feeds.

Material Grade	Hardness	Impact Tolerance	Typical Application
Mn13Cr2	180-220 HB (work-hardens to ~450 HB)	Très élevée	Pierre calcaire propre, roche tendre, recyclage avec métaux parasites
Mn14Cr2	190-230 HB (work-hardens to ~480 HB)	Très élevée	Carrière générale, gravier de rivière, abrasion modérée
Mn18Cr2	200-240 HB (work-hardens to ~500 HB)	Élevée	Granite, basalte, roche ignée dure
Mn22Cr2	220-260 HB (work-hardens to ~550 HB)	Moyenne-élevée	Taconite, quartzite, alimentations minières hautement abrasives
Mn22 + TiC Composite	220-260 HB base + 3200 HV TiC inserts	Moyenne-élevée	Abrasion extrême où le Mn22 standard s'use trop vite

Nuances standard (2 options)

Mn13Cr2

Hardness:
Impact:
Application:

Mn14Cr2

Hardness:
Impact:
Application:

Nuance premium (1 options)

Mn18Cr2

Hardness:
Impact:
Application:

Service intensif (2 options)

Mn22Cr2

Hardness:
Impact:
Application:

Mn22 + TiC Composite

Hardness:
Impact:
Application:

Note: Work-hardened hardness values are approximate and depend on feed material characteristics, crusher settings, and operating conditions. Higher manganese content enables higher work-hardened hardness but requires sufficient impact energy to achieve full work-hardening. Contact ATF for application-specific guidance.

Work-Hardening Progression by Manganese Grade

Higher manganese grades achieve higher work-hardened surface hardness but require adequate impact energy to activate the work-hardening mechanism. Fine feeds or low-energy applications may not fully work-harden higher grades.

Profile Options

Tooth Profile Selection

Tooth geometry affects grip, fines generation, and wear pattern. Select the profile that matches your feed characteristics.

Ondulé standard

Carrière générale, usure uniforme

Le profil de dents symétrique offre une préhension équilibrée et une répartition uniforme de l'usure. Standard de l'industrie pour la plupart des applications de carrière.

Dent profonde

Alimentation volumineuse, préhension améliorée

Le profil de dent plus profond augmente la préhension des gros blocs et améliore l'éjection des fines. Idéal pour le concassage primaire d'alimentation surdimensionnée.

Super Grip

Matériau plat ou en plaques

La géométrie agressive des dents empêche le matériau plat de glisser. Conçu pour le traitement de la roche de carrière en plaques ou du matériau altéré.

Plat (Lisse)

Recyclage, matériau collant

Face lisse sans dents pour le recyclage du béton et de l'asphalte. Réduit l'accumulation de matériau et les blocages dans les alimentations collantes.

Profil de recyclage

Démolition et construction, démolition mixte

Géométrie de dent modifiée pour les déchets de construction et de démolition. Gère les alimentations mixtes avec des métaux parasites occasionnels.

Custom profiles available. ATF can manufacture tooth profiles to customer drawing for specific applications. Contact us with your requirements for dimensional confirmation and pricing.

Selection Guide

How to Choose: Grade First, Then Profile

Jaw plate selection follows two steps. First, identify the correct manganese grade based on feed abrasiveness and impact conditions. Second, select the tooth profile that matches your material characteristics.

1 Step 1 — Manganese Grade by Feed Conditions

Mn13Cr2 / Mn14Cr2

Impact élevé, abrasion modérée

Ténacité maximale avec bon écrouissage. Meilleure résistance aux chocs pour les applications avec métaux parasites fréquents ou alimentation volumineuse.

Mn18Cr2

Impact et abrasion équilibrés

Standard de l'industrie pour le granite et le basalte. La teneur plus élevée en manganèse augmente le potentiel d'écrouissage sans sacrifier la ténacité.

Mn22Cr2

Forte abrasion, impact contrôlé

Écrouissage maximum pour les alimentations extrêmement abrasives. Tolérance aux chocs légèrement réduite par rapport aux nuances inférieures.

Mn22 + TiC Composite

Abrasion extrême, campagnes longues

Les inserts TiC (3200 HV) fournissent une dureté localisée à la face de concassage. Prolonge la durée de vie où le Mn22 standard s'use trop vite.

Not sure which grade fits your application?

Send your feed material description and crusher model — ATF recommends the right grade within 24 hours.

Request Grade Recommendation

2 Step 2 — TiC Composite Upgrade

TiC (titanium carbide) rods embedded in the crushing face provide localised hardness of 3200 HV. This composite option is available on Mn22 base plates for applications where plain manganese wears too fast.

When to Upgrade to TiC

Les plaques Mn22 standard s'usent 40%+ plus vite que la campagne cible
Alimentations hautement siliceuses (>70% SiO2)
Objectif d'étendre les intervalles d'arrêt
Les calculs de coût par tonne favorisent une usure plus longue

When NOT to Use TiC

Métaux parasites volumineux et fréquents dans l'alimentation
Matériau collant ou argileux qui s'accumule sur la face de concassage
Durée de vie adéquate déjà atteinte avec le manganèse standard
Applications où le surcoût du TiC dépasse le bénéfice de durée de vie

Production Schedule

Lead Times by Material Grade

Material Grade	Typical Lead Time	Why
Mn13Cr2 / Mn14Cr2 (plain)	2-3 weeks	Production en grand volume, couramment disponible en stock
Mn18Cr2 (plain)	2-4 weeks	Planification de production standard
Mn22Cr2 (plain)	3-4 weeks	Traitement thermique spécialisé requis
Mn22 + TiC Composite	5-7 weeks	Le placement des tiges TiC nécessite un processus de coulée secondaire

Lead times vary by plate dimensions, order quantity, and current production schedule. Confirm lead time at order placement. Standard Mn18 plates for Metso C-Series and Sandvik CJ models are typically available from stock.

Planning a shutdown?

Check lead time and stock availability for your specific jaw plate dimensions.

Check Availability

Standard Grades

Mn13Cr2 & Mn14Cr2 Jaw Plates

Mn13Cr2 and Mn14Cr2 provide the highest impact tolerance of any manganese grade. These standard grades work-harden to approximately 450-480 HB under compressive impact — sufficient for most aggregates and recycling applications without the cost premium of higher grades.

Recommended applications: Clean limestone and dolomite, recycling operations with tramp metal risk, portable crushing operations where material varies, and any application where maximum toughness is prioritised over maximum work-hardened hardness.

When to Use Lower Grades

Mn13/Mn14 is often the correct choice even when higher grades are available. If your current plates deliver acceptable wear life without cracking, upgrading to Mn18 or Mn22 may not be cost-effective. The higher grades are reserved for genuinely abrasive feeds where lower grades wear excessively fast.

Mn14 manganese jaw crusher plates for general quarrying

Standard Manganese Jaw Plates

Mn13Cr2 / Mn14Cr2 for balanced performance

Mn18 premium manganese jaw plates for hard rock crushing

Mn18Cr2 Premium Grade

Industry standard for granite and basalt

Premium Grade

Mn18Cr2 Jaw Plates

Mn18Cr2 (ASTM A128 Grade C equivalent) is the industry standard for hard rock quarrying. The increased manganese content enables work-hardening to approximately 500 HB while retaining high impact tolerance. This grade represents the optimal balance for granite, basalt, gabbro, and similar hard igneous rock.

Work-hardening mechanism: Under the compressive impact of crushing, the austenitic structure undergoes strain-induced transformation. The surface progressively hardens while the core remains tough, providing both abrasion resistance and impact absorption.

Granite, basalt, gabbro, diorite
River gravel and alluvial deposits
Mixed hard rock quarrying

Heavy Duty

Mn22Cr2 Heavy Duty Jaw Plates

Mn22Cr2 provides the highest work-hardening potential of any standard manganese grade, achieving approximately 550 HB surface hardness under optimal conditions. This grade is reserved for highly abrasive mining feeds where Mn18 wears excessively fast.

Typical applications: Taconite (iron ore), quartzite, high-silica aggregates, and other materials with silica content exceeding 70%. Impact tolerance is slightly reduced compared to Mn18 — this is an acceptable trade-off when abrasion is the dominant wear mechanism.

Important Consideration

Mn22 requires sufficient impact energy to achieve full work-hardening. In low-impact applications (fine feeds, low crusher speed), the surface may not harden fully, and Mn18 may provide equivalent performance at lower cost. Verify that the application generates adequate impact before specifying Mn22.

Mn22 heavy duty jaw plates for mining applications

Mn22Cr2 Heavy Duty Grade

Maximum work-hardening for abrasive feeds

Mn22 jaw plate with TiC titanium carbide inserts

TiC insert pattern showing titanium carbide rods in manganese matrix

Mn22 + TiC Composite

Titanium carbide rods at 3200 HV

Composite Technology

Mn22 + TiC Composite Jaw Plates

TiC (titanium carbide) rods embedded in the crushing face provide localised hardness of 3200 HV — significantly harder than any work-hardened manganese surface. The Mn22 base retains its impact tolerance while the TiC rods resist edge rounding in extremely abrasive feeds.

The TiC upgrade is justified when: Plain Mn22 plates wear 40% or more faster than required campaign length, and the cost premium of TiC is offset by reduced changeout frequency and extended production time between shutdowns.

TiC vs Plain Manganese

TiC composite plates typically provide 1.5-2.5x the wear life of plain Mn22 in highly abrasive applications. The actual improvement depends on feed silica content, particle size, and crushing parameters. ATF provides application-specific recommendations based on operating conditions.

Product Range

Jaw Plate Gallery

Fixed and swing jaw plates manufactured to OEM specifications for all major jaw crusher brands.

Mn18Cr2
Fixed Jaw Plate
Primary
Swing Jaw Plate
Mn22Cr2
Heavy Duty Plates
Deep Tooth
Tooth Profile Detail
TiC Insert
Mn22 + TiC Composite
Composite
TiC Insert Pattern

Not Sure Which Grade is Right?

Our application engineers provide free technical consultations. Tell us your crusher model, feed material, and current wear patterns — we'll recommend the optimal jaw plate grade for your operation.

24-Hour Quote Response

Free Technical Consultation

Stock Available

Request a Quote +1 308 465 1950

Maintenance Guide

Plate Flipping and Wear Management

Plate Flipping Schedule

Wear Stage	Action	Purpose
30-40% usée	Retourner la plaque fixe à 180°	Expose la face de concassage non usée, double la durée de vie utile
50-60% usée (total)	Retourner la mâchoire mobile à 180°	La mâchoire mobile s'use généralement plus vite côté décharge
CSS approchant le minimum	Remplacer les deux plaques	Les plaques usées ne peuvent pas maintenir un réglage sûr du côté fermé

Before Flipping

Always inspect plates for cracks before flipping. Cracked plates should be replaced, not flipped — a crack may propagate under continued stress and cause catastrophic failure. Check mounting bolt holes for elongation or damage.

CSS Monitoring & Wear Indicators

Grossissement de la granulométrie du produit

Cause: L'usure des plaques augmente le CSS

Action: Ajuster le CSS ou planifier le changement de plaques

Débit réduit

Cause: L'usure affecte l'efficacité de concassage

Action: Vérifier les profils des plaques, envisager le remplacement

Profil d'usure irrégulier

Cause: Ségrégation de l'alimentation ou désalignement

Action: Inspecter la distribution de l'alimentation, vérifier l'alignement des mâchoires

Glissement du matériau

Cause: Dents usées lisses (glaçage)

Action: Remplacer les plaques, vérifier la spécification de l'angle de prise

Nip Angle and Material Grip

The nip angle is the angle between the fixed and swing jaw faces. For most rock types, the nip angle should be between 19° and 23° to ensure material is gripped without slipping. Worn plates with reduced tooth height effectively increase the nip angle, causing material to slip rather than being crushed.

If material begins slipping despite CSS being within specification, the plate tooth profile has worn too smooth. Replace plates to restore proper grip. Deeper tooth profiles may be specified for slabby or difficult-to-grip materials.

19°–23°

Optimal Nip Angle Range

Varies by material type

Troubleshooting

Common Jaw Plate Problems and Solutions

Plaques fissurées ou cassées

Possible Causes:

Impact de métaux parasites
Traitement thermique incorrect
Serrage excessif des boulons de fixation

Possible Causes:

Alimentation plus abrasive que prévu
Nuance de manganèse incorrecte sélectionnée
Écrouissage insuffisant (alimentation fine)

Possible Causes:

Distribution ségrégée de l'alimentation
Désalignement du bâti de mâchoire
Alimentation mono-granulaire créant une charge ponctuelle

Possible Causes:

Profil de dent usé
Angle de prise trop faible
Plaque trop lisse pour le type de matériau

Possible Causes:

Alimentation trop fine pour concasseur à mâchoires
Énergie d'impact trop faible
Nuance Mn trop élevée pour l'application

Possible Causes:

Plaques usées au-delà de la limite
CSS trop serré
Re-concassage du produit à la décharge

Compatible Crusher Models

ATF jaw plates are manufactured to the dimensional tolerances of the following jaw crusher lines. Material recommendations based on typical application — confirm with ATF for specific operating conditions.

OEM	Models	Recommended Grade
Metso	C80 C96 C100 C106 C110 C116 C120 C125 C130 C140 C145 C150 C160 C200	Mn18 for standard quarrying, Mn22 for abrasive feeds
Sandvik	CJ211 CJ411 CJ412 CJ612 CJ613 CJ615 CJ815 UJ210 UJ310 UJ440i	Mn18 for granite/basalt, Mn14 for recycling
Terex Finlay	J-960 J-1160 J-1170 J-1175 J-1170AS J-1480	Mn18 general quarrying
Kleemann	MC 100 MC 110 MC 120 MC 125 MC 140 MOBICAT	Mn18 standard, Mn22 for mining
McCloskey	J35 J40 J45 J50 J67	Mn14 recycling, Mn18 quarry
Komatsu	BR380JG BR480RG BR550JG	Mn18 general purpose
Telsmith	2238 2550 3042 3244 3442 3448 4448 5160 5163	Mn18 standard, Mn22+TiC for taconite
Lippmann	3042 3650 4248 5062	Mn22 for hard rock mining
Eagle	500 1000 1200 1400 2036 2238 2442 3042	Mn18 aggregate, Mn22 mining
KPI-JCI	KODIAK K300 K400 K500 PIONEER 3042 4030 5060	Mn18 general purpose

Model not listed? Contact ATF with the part number or jaw dimensions. Most jaw plates can be manufactured to drawing within 3–5 weeks.

Technical Requirements

Jaw Plate Dimensions and Specifications

Critical dimensions for jaw plate fit: length, width, thickness, mounting hole pattern, and tooth profile. ATF requires at least one of the following to confirm dimensional fit:

OEM Part Number

e.g. Metso 814328513400
Crusher Model & Serial

For cross-reference to OEM specs
Dimensional Drawing

With tolerances specified
Physical Measurement

L × W × T, hole pattern, tooth pitch

Jaw plates should be ordered as matched sets (fixed + swing) to ensure consistent crushing performance and even wear. Mixing old and new plates creates uneven wear patterns and may affect product gradation.

Quick Quote Requirements

Crusher brand and model
Part number or dimensions
Feed material type
Current grade / wear issues
Quantity (typically matched sets)

Not sure about specifications? Send photos of your worn plates and crusher nameplate — our engineers can identify the correct parts.

Get a Quote

Ready to order?

Send your OEM part number or jaw drawing for dimensional confirmation and pricing.

Request Drawing Match

FAQ

Jaw Plate FAQs

Find answers to common questions about jaw plate materials, selection, maintenance, and ordering. Can't find what you're looking for?

Contact Our Team

What is the difference between fixed and swing jaw plates?

The fixed jaw plate mounts to the stationary jaw frame and provides the crushing face against which material is reduced. The swing (movable) jaw plate attaches to the pitman and provides the reciprocating crushing action. Both plates are subjected to similar wear forces, but the swing jaw typically wears faster at the discharge end due to the eccentric motion. Plates should be ordered as matched sets to ensure consistent crushing performance.

How do I choose between Mn14, Mn18, and Mn22 grades?

Selection depends on the abrasiveness of your feed material. Mn13/Mn14 provides maximum toughness for applications with high impact or tramp metal risk (recycling, demolition). Mn18 is the industry standard for granite, basalt, and general hard rock quarrying — it offers the best balance of toughness and work-hardening. Mn22 should be reserved for highly abrasive feeds (taconite, quartzite, high-silica aggregates) where Mn18 wears too quickly. Using a higher grade than necessary increases cost without proportional benefit.

When should I upgrade to TiC composite jaw plates?

TiC (titanium carbide) inserts are justified when plain Mn22 plates wear significantly faster than your target campaign length in highly abrasive applications. The TiC rods (3200 HV) provide localised hardness at the crushing face. If your current Mn22 plates are delivering acceptable wear life, TiC offers no benefit. TiC is also not recommended for applications with frequent large tramp metal, as the inserts can be damaged by point-load impact.

Can jaw plates be flipped to extend wear life?

Yes, most jaw plates are designed for flipping. Fixed plates can typically be rotated 180° at 30-40% wear to expose the unworn face. Swing plates can similarly be flipped when one end shows more wear than the other (common at the discharge end). Flipping can nearly double the effective wear life of each plate. Always inspect plates for cracks before flipping — damaged plates should be replaced, not flipped.

How do I measure the correct CSS (closed-side setting)?

CSS is measured at the discharge end of the jaw cavity when the swing jaw is at its closest point to the fixed jaw (closed position). Use a measuring rod or tape at multiple points across the discharge width and take the minimum reading. Compare against OEM specifications for your target product size. Plates should be replaced when wear no longer allows the CSS to be adjusted to specification.

What information does ATF need to quote jaw plates?

At minimum, ATF needs: the crusher make and model, or the OEM part number, or dimensional drawings with tolerances. For material recommendations, also provide your feed material type and current wear experience. Photos of worn plates and the crusher nameplate are helpful if part numbers are not available. ATF can cross-reference most major jaw crusher models to provide correctly dimensioned replacement plates.

Ready to Order Jaw Plates?

Stock available for popular models. Custom orders manufactured in 3–5 weeks. Factory-direct pricing with technical support from experienced engineers.

24h

Quote Response

3–5

Weeks Production

50+

Countries Served

Request a Quote Call +1 308 465 1950

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Notre équipe d'ingénierie répond sous 24 heures avec des spécifications détaillées, des recommandations de matériaux et des prix compétitifs.

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Important Notice

All product names, brand names, trademarks, models, part numbers, symbols, and descriptions referenced on this website are used solely for identification and reference purposes. They are the property of their respective owners. ATF Crusher Parts Ltd. makes no claim of affiliation with, endorsement by, or authorization from any of the referenced companies or brand owners. Unless expressly stated, it is not implied or intended that any products offered by ATF Crusher Parts Ltd. are original equipment manufacturer (OEM) products or that they are supplied, sponsored, or approved by the OEM. ATF Crusher Parts Ltd. supplies aftermarket replacement parts manufactured independently. Any mention of OEM names, part numbers, or brands is strictly for the limited purpose of identifying compatibility and application.

Plaques de mâchoires | Fixe et mobile | ATF

What Jaw Plates Do and Why Material Matters

Manganese Grade Selection by Application

Work-Hardening Progression by Manganese Grade

Tooth Profile Selection

Ondulé standard

Dent profonde

Super Grip

Plat (Lisse)

Profil de recyclage

How to Choose: Grade First, Then Profile

1 Step 1 — Manganese Grade by Feed Conditions

Mn13Cr2 / Mn14Cr2

Mn18Cr2

Mn22Cr2

Mn22 + TiC Composite

2 Step 2 — TiC Composite Upgrade

When to Upgrade to TiC

When NOT to Use TiC

Lead Times by Material Grade

Mn13Cr2 & Mn14Cr2 Jaw Plates

When to Use Lower Grades

Mn18Cr2 Jaw Plates

Mn22Cr2 Heavy Duty Jaw Plates

Important Consideration

Mn22 + TiC Composite Jaw Plates

TiC vs Plain Manganese

Jaw Plate Gallery

Not Sure Which Grade is Right?

Plate Flipping and Wear Management

Plate Flipping Schedule

Before Flipping

CSS Monitoring & Wear Indicators

Nip Angle and Material Grip

Common Jaw Plate Problems and Solutions

Possible Causes:

Recommended Solutions:

Possible Causes:

Recommended Solutions:

Possible Causes:

Recommended Solutions:

Possible Causes:

Recommended Solutions:

Possible Causes:

Recommended Solutions:

Possible Causes:

Recommended Solutions:

Compatible Crusher Models

Jaw Plate Dimensions and Specifications

Quick Quote Requirements

Jaw Plate FAQs

Ready to Order Jaw Plates?

Demandez un Devis Gratuit Aujourd'hui