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CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET
STRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLOR
Your Global Compounder ofYour Global Compounder ofYour Global Compounder ofYour Global Compounder of
Custom Engineered ThermoplasticsCustom Engineered ThermoplasticsCustom Engineered ThermoplasticsCustom Engineered Thermoplastics
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Profil d’entrepriseProfil d’entrepriseProfil d’entrepriseProfil d’entreprise
• RTP Company est un compoundeur indépendant, à capitaux privés
• Production et support technique au niveau mondial
• Représentation commerciale partout dans le monde
• Etablie depuis 1982
• Plus de 1000 collaborateurs
• Plus de 400 millions US$ de CA annuel
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Solutions sur mesureSolutions sur mesureSolutions sur mesureSolutions sur mesure
• Du “High-Tech” au produit standard
– Plus de 60 polymères, plus de 100 charges
et additifs
– Gamme très étendue de compounds
• Du polypropylène talc au PEEK céramiques
• Production annuelle
– Plus de 6000 références actives
– Plus de 1750 nouvelles formulations chaque année
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Nos objectifsNos objectifsNos objectifsNos objectifs
Satisfaire nos Clients :
• Solutions
• Technologies
• Flexibilité
• Réactivité
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
IndépendanceIndépendanceIndépendanceIndépendance
Objectivité :
• Matières premières
• Formulations
• Solutions
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSOF CUSTOM ENGINEERED THERMOPLASTICS
Présence globale
United States• Mexico • France • Germany • China • Singapore
Votre compoundeur de spécialitésVotre compoundeur de spécialitésVotre compoundeur de spécialitésVotre compoundeur de spécialités
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Familles de productsFamilles de productsFamilles de productsFamilles de productsCOMPREHENSIVE PRODUCT LINE
Compounds formulés pour satisfaire vos besoins
STRUCTURELS ANTI-USURE ELASTOMERES THERMOPLASTIQUES
IGNIFUGES COULEUR FEUILLES & FILMS
CONDUCTEURS
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
MarchésMarchésMarchésMarchés
Automobile
Défense &Aéronautique
Electricité
Industriel
Biens de consommation Energie
Médical
Terminaux de paiements
Electronique
BTP &Agriculture
Electro-ménager
Sports & Loisirs
CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET
STRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLOR
PolyamidesPolyamidesPolyamidesPolyamides, fers de lance des , fers de lance des , fers de lance des , fers de lance des
applications plastiques applications plastiques applications plastiques applications plastiques techniquestechniquestechniquestechniques
Matériaux Matériaux Matériaux Matériaux Composites Structurels et Fibres Composites Structurels et Fibres Composites Structurels et Fibres Composites Structurels et Fibres longueslongueslongueslongues
Compounds Compounds Compounds Compounds ConducteursConducteursConducteursConducteurs
Bruno Desbordes
Responsable R&D, Europe
RTP Company
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
RésistanceRésistanceRésistanceRésistance
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
RigiditéRigiditéRigiditéRigidité
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
RésilienceRésilienceRésilienceRésilience
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Formulation des matériaux compositesFormulation des matériaux compositesFormulation des matériaux compositesFormulation des matériaux composites
PolymèreChangement
des PropriétésAdditifs
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Caractéristiques des PolyamidesCaractéristiques des PolyamidesCaractéristiques des PolyamidesCaractéristiques des Polyamides
• Caractéristiques morphologiquesCaractéristiques morphologiquesCaractéristiques morphologiquesCaractéristiques morphologiques – Polymère semi-cristallin. Excellente résistance chimique, excellente résistance à l’abrasion, plage de viscosité importante (excepté pour le PA amorphe)
• PA 6PA 6PA 6PA 6 – Faible coût, solide/rigide (mais sensible à l’humidité), bon aspect de surface même renforcé
• PA 66PA 66PA 66PA 66 -- Faible coût, solide/rigide (mais sensible à l’humidité), HDT plus élevée
• PA 6PA 6PA 6PA 6----10, PA 610, PA 610, PA 610, PA 6----12, PA 11, PA 12, etc.12, PA 11, PA 12, etc.12, PA 11, PA 12, etc.12, PA 11, PA 12, etc. – Moins sensibles à l’humidité, coût élevé
• PPAPPAPPAPPA – Polyphtalamide ou polyamide semi-aromatique. Résistance thermique supérieure, grande rigidité
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
ChargesChargesChargesCharges
Billes (Verre)(photo: Potters, Inc.)
Minéraux (Talc)
Fibres (Verre)
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
ChargesChargesChargesCharges
Modifications des propriétés déterminées par:
Rapport d’aspect Renforcement
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Etude de casEtude de casEtude de casEtude de cas
• Corps d’agrafeuse-cloueuse– Bonne résistance
chimique
– Excellente solidité et rigidité & résistance aux chocs
– Bel aspect de surface même si la matière est renforcée fibre
– Coût raisonnable
• PA 6 + FV
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Etude de casEtude de casEtude de casEtude de cas
• Collecteur d’admission (automobile)– Bonne résistance
chimique
– Excellente solidité et rigidité & résistance aux chocs
– Bonne résistance thermique
– Coût raisonnable
• PA 66 + GF
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Etude de casEtude de casEtude de casEtude de cas
• Carter d’huile– Bonne résistance
chimique
– Excellente solidité et rigidité & résistance aux chocs
– Bonne résistance thermique
– Tolérances dimensionnelles très fines & planéité
– Coût raisonnable
• ?????????
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Défauts de morphologieDéfauts de morphologieDéfauts de morphologieDéfauts de morphologie
AmorpheAmorpheAmorpheAmorphe SemiSemiSemiSemi----CristallinCristallinCristallinCristallin
Faible retrait ✸✸✸✸ D
Faible gauchissement ✸✸✸✸ D
Tolérances minimales ✸✸✸✸ D
Transparence ✸✸✸✸
Facilité en matière de viscosité ✸✸✸✸
Résistance chimique ✸✸✸✸
Résistance à l’usure ✸✸✸✸
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Stabilité DimensionnelleStabilité DimensionnelleStabilité DimensionnelleStabilité Dimensionnelle
• Peut-on diminuer le retrait et améliorer la stabilité dimensionnelle des résines semi-cristallines?
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Les fibres Les fibres Les fibres Les fibres diminuent le diminuent le diminuent le diminuent le retraitretraitretraitretrait
Retrait en X ≠ Retrait en Y GauchissementRetrait en X ≠ Retrait en Y GauchissementRetrait en X ≠ Retrait en Y GauchissementRetrait en X ≠ Retrait en Y Gauchissement
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Contrôle du gauchissementContrôle du gauchissementContrôle du gauchissementContrôle du gauchissement
Retrait en X = Retrait en Y Pièce plateRetrait en X = Retrait en Y Pièce plateRetrait en X = Retrait en Y Pièce plateRetrait en X = Retrait en Y Pièce plateMais faible résistance!Mais faible résistance!Mais faible résistance!Mais faible résistance!
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Résistance & Contrôle du GauchissementRésistance & Contrôle du GauchissementRésistance & Contrôle du GauchissementRésistance & Contrôle du Gauchissement
Taux de charge habituel = 15% de fibres de verre &25% de minéraux ou billes
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
EEEEtude de castude de castude de castude de cas
• Carter d’huile– Bonne résistance
chimique– Excellente solidité et
rigidité & résistance aux chocs
– Bonne résistance thermique
– Coût raisonnable
– Tolérances dimensionnelles très fines & planéité
• PA 66 + 15% FV + 25% Minéral
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Fibre de carboneFibre de carboneFibre de carboneFibre de carbone
FibreFibre de verre
type E
Fibre de carbone
(module standard)
Diamètre type (μm) 10-17 5-10
Densité (g/cm3) 2.55 1.81
Contrainte de traction estimée
(MPa)3400 4100
Module de flexion estimé (GPa) 73 240
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Comparaison de fibres Comparaison de fibres Comparaison de fibres Comparaison de fibres –––– PA 66PA 66PA 66PA 66
PA 66 60% VLF
(fibre de verre
longue)
PA 66 35% fibre de
carbone
Module de flexion(GPa) 19.3 19.0
Contrainte de traction (MPa) 275 244
Allongement (%) 2.0 2.0
Densité 1.71 1.29
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Les compounds à fibres longuesLes compounds à fibres longuesLes compounds à fibres longuesLes compounds à fibres longues
• Spécificités des fibres longues ou Very Long Fiber (VLF)
• Comparaisons de propriétés
• Replacement de métal
• Etudes de cas
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Processus standard d’extrusionProcessus standard d’extrusionProcessus standard d’extrusionProcessus standard d’extrusion
Refroidissement
Extrudeuse
Mélangeur
GranulateurTamis
Matières premières Produit fini
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Procédé de fabrication VLFProcédé de fabrication VLFProcédé de fabrication VLFProcédé de fabrication VLF
Fibres (bobines) Extrudeuse/Filière
Banc de tirage
Granulateur
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Comparaison de granulésComparaison de granulésComparaison de granulésComparaison de granulés
Longueur de la fibre~ 1-2 mm 12 mm
Fibre courte Fibre longue
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Avantages de la fibre longueAvantages de la fibre longueAvantages de la fibre longueAvantages de la fibre longue
Résilience Résistance/Rigidité
Résistance au fluage Faibles déformations
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Rigidité & Résilience !Rigidité & Résilience !Rigidité & Résilience !Rigidité & Résilience !
Aug
men
tatio
n du
MO
DU
LE
Augmentation de la résistance à l’ IMPACT
Ren
forc
emen
t en
fibre
s co
urte
s
Modification d’impact
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Polyamide 66 Polyamide 66 Polyamide 66 Polyamide 66 –––– 40% Fibre de verre 40% Fibre de verre 40% Fibre de verre 40% Fibre de verre
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Essai de perforation (drop test)Essai de perforation (drop test)Essai de perforation (drop test)Essai de perforation (drop test)
Aug
men
tatio
n de
l’én
ergi
e d’
impa
ct
PA 66 fibres
de verrecourtes
PA 66 fibres
de verrelongues
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
L’armature fibreuse (squelette) L’armature fibreuse (squelette) L’armature fibreuse (squelette) L’armature fibreuse (squelette)
PA 66 + 60% VLFPrétensionneur de ceinture
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
• Réduction des coûts
• Réduction du poids
• Liberté de conception et de design
• Bonne résistance chimique (corrosion)
• Amortissement du bruit et des vibrations
Objectifs remplacement de métauxObjectifs remplacement de métauxObjectifs remplacement de métauxObjectifs remplacement de métaux
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Application: CloueuseApplication: CloueuseApplication: CloueuseApplication: Cloueuse
Marché: Industriel
Application: Cloueuse pneumatique
Problème: Conception métallique trop lourde, inertie lors du
chargement
Solution: PA 66 VLF
Avantage: Conception revue en PA 66 VLF pour réduire le poids,
améliorer les performances de
percussion et diminuer la
fatigue de l’utilisateur.
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Application: Jante Application: Jante Application: Jante Application: Jante
Marché: Loisirs
Application: Jante de roues
Problème: Solution à base de fibres de carbone trop onéreuse
Solution: PA 66 VLF, modifié choc
Avantage: Amélioration de la résiliencepar rapport à un compound
VLF classique. Proposition
concurrentielle et colorable
par rapport à la solution
initiale.
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Problème: Remplacer les alliages d’aluminium-silicium, empêcher le bris de glace lors d’un choc léger et résister à des températures de -40°C à 80°C.
Matériau: VLF PA66, facilité de mise en oeuvre, stabilisé thermiquement, noir
Avantages: PA66 VLF possède un module élevé et n’est pas si fragile à -40°C
Rotules de rétroviseur extérieur Rotules de rétroviseur extérieur Rotules de rétroviseur extérieur Rotules de rétroviseur extérieur
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
CTE similaire à l’acierCTE similaire à l’acierCTE similaire à l’acierCTE similaire à l’acier
0 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6
PA66 VLF60
Magnésium
Aluminium
Acier
Coefficient d’Expansion Thermique*10 /K-6
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Problème: Remplacer les centreurs en métal pour éliminer la corrosion. Permettre la mise en place de capteurs électroniques. Fonctionner lors des forages à des températures de 150°C.
Solution: PPA VLF, modifié choc
Avantage: - Résistance aux fluides et aux produits chimiques présents dans les puits
- Grande résistance diélectrique qui permet aux systèmes électroniques de fonctionner à des pressions et des températures élevées (150°C).
Centreur pour forage pétrolierCentreur pour forage pétrolierCentreur pour forage pétrolierCentreur pour forage pétrolier
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Considérations liées au moulageConsidérations liées au moulageConsidérations liées au moulageConsidérations liées au moulage
Eviter de commencer avec de la fibre longue et de terminer avec de la fibre courte !
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Les compounds conducteursLes compounds conducteursLes compounds conducteursLes compounds conducteurs
• Technologies usuelles
• Technologies avancées– Polymères intrinsèquement conducteurs
– Nanotubes
– Blindage Electromagnétique
– Conductivité thermique
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Echelle de conductivitéEchelle de conductivitéEchelle de conductivitéEchelle de conductivité
• Niveaux de conductivité– Antistatiques
– Dissipateurs électrostatiques
– Conducteurs
– Blindage Electromagnétique
• Votre application fera partie de l’une de ces catégories…
• Mesure de la performance du matériau / méthodes de test
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Type de charges conductricesType de charges conductricesType de charges conductricesType de charges conductrices
TechnologieTechnologieTechnologieTechnologie AvantagesAvantagesAvantagesAvantages InconvénientsInconvénientsInconvénientsInconvénients
Agents antistatiques migrants • Économiques
• Non permanent• Température de mise en œuvre limitée• Sensible à l’humidité
Polymère intrinsèquement conducteurs
PermaStat®
• Permanents• Possibilités de produits transparents• Colorables•Impact minimal sur les propriétés mécaniques
• Limités à la plage dissipative• Température de transformation réduite
Noir de carbone
• Économique• Dissipatif ou conducteur• Elimine l’accumulation des charges électrostatiques
• Migrant (crayonnage)• Noir Uniquement• Résistance aux chocs réduite
Fibre de carbone• Dissipatif ou conducteur• Renforçant• Non Migrant
• Anisotropie du retrait• Peut autoriser l’accumulation de charges électrostatiques
Nanotubes de carbone
• Dissipatif ou conducteur• Très bonne dissipation des charges électrostatiques• Effet minimal sur la viscosité• Extractibilité faible
• Coût• Noir uniquement
Charges métalliques• Blindage EMI/RFI• Très conducteur
• Couleurs limitées• Densité plus élevée
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Courbe de percolation Courbe de percolation Courbe de percolation Courbe de percolation
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Noir de carbone conducteurNoir de carbone conducteurNoir de carbone conducteurNoir de carbone conducteur
• Permanent
• Couleur noir
• Migrant / Marquage /
Crayonnage
• Économique
• Dissipatif ou conducteur
– RS 103 to 109 ohm
– RT 100 to 106 ohm.cm
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Applications Noir de CarboneApplications Noir de CarboneApplications Noir de CarboneApplications Noir de Carbone
Plateaux pour transport de puces électroniques
Bac de stockage
Embouts de pipette
Conduits d’alimentation pour
carburant
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Fibre de graphite/carboneFibre de graphite/carboneFibre de graphite/carboneFibre de graphite/carbone
• Non migrant
• Colorable
• Retrait anisotrope
• Renforçant
• Dissipatif ou conducteur– RS 102 to 106 ohm
– RT 10-1 to 104 ohm.cm
Fibre coupée – “bottes” de 6mm de long
Fibre broyée – pulvérisée
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Applications fibre de carboneApplications fibre de carboneApplications fibre de carboneApplications fibre de carbone
Système d’alimentation
carburant
Plateau de transport/stockage de puces électroniques
Châssis d’imprimante
CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET
STRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLOR
Polymères intrinsèquement Polymères intrinsèquement Polymères intrinsèquement Polymères intrinsèquement conducteursconducteursconducteursconducteurs
PermaStatPermaStatPermaStatPermaStat®®®® & & & & PermaStatPermaStatPermaStatPermaStat PLUSPLUSPLUSPLUS®®®®
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Avantages de la technologie PermaStatAvantages de la technologie PermaStatAvantages de la technologie PermaStatAvantages de la technologie PermaStat®®®®
• Protection ESD permanente• Capable de passer les tests de biocompatibilité• Propre (ni relargage, ni migration)• Non tributaire de l’humidité• Colorable à 100 %• Plusieurs grades transparents disponibles• Plusieurs grades FDA disponibles• Conserve les propriétés de la résine de base• PermaStat PLUS® répond aux exigences de l’ATEX
CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET
STRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLOR
NanotubesNanotubesNanotubesNanotubes
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Propriétés des CNTPropriétés des CNTPropriétés des CNTPropriétés des CNT
• > 90% de graphite
• Creux
• Diamètre de 10 nanomètres
• Ratio longueur/diamètre
élevé (L/D)
• Synthétisés et observés pour
la première fois en 1987
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
CNT: Différence d’échelleCNT: Différence d’échelleCNT: Différence d’échelleCNT: Différence d’échelle
Fibre de carbone (gauche) entourée de nanotubes, montrant la différence
fondamentale existant entre les CNT et la technologie fibre de carbone
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Principaux avantages des CNTPrincipaux avantages des CNTPrincipaux avantages des CNTPrincipaux avantages des CNT
• Conductivité électrique
• Élimine les courants résiduels (hot spots)
• Efficace à faible pourcentage
• Aspect de surface exceptionnel
• Permet d’injecter en fines épaisseurs
• Propriétés isotropes
CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET
STRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLOR
Blindage EMIBlindage EMIBlindage EMIBlindage EMI
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Que signifie EMI ?Que signifie EMI ?Que signifie EMI ?Que signifie EMI ?
• EEEElectroMMMMagnetic IIIInterference (interférence
électromagnétique)
• Nuit aux performances de l’appareil
• Émise par une source
• Reçue par un appareil
• Plage de fréquence de 1 kHz à 10 GHz
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Méthodes de blindage EMI Méthodes de blindage EMI Méthodes de blindage EMI Méthodes de blindage EMI
• Peinture /revêtements métallisés
• Feuille /écran métallique
• Boîtier en métal
• Compound polymère– Augmente la liberté de conception
• Réduction du nombre de pièces
– Élimine les opérations secondaires• Diminue le coût des pièces
• Réduit les délais de mise sur le marché
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Comparaison des chargesComparaison des chargesComparaison des chargesComparaison des charges
• Fibre en acier inoxydableFibre en acier inoxydableFibre en acier inoxydableFibre en acier inoxydable– Non renforçant– Effet minimal sur les
propriétés de la résine de base
– Retrait équivalent à celui de la résine vierge
– Performance de blindage moyenne
– Colorable
• Fibre de carbone nickeléeFibre de carbone nickeléeFibre de carbone nickeléeFibre de carbone nickelée– Renforçant– Propriétés analogues à celles
des compounds chargés fibres de carbone
– Meilleure performance de blindage
– Coût plus élevé– Moins colorable
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Efficacité du blindageEfficacité du blindageEfficacité du blindageEfficacité du blindage
Fréquence (MHz)Fréquence (MHz)Fréquence (MHz)Fréquence (MHz)
0
10
2030
40
50
6070
80
90
0 300 600 900 1200 1500
1,6mm d’épaisseur2mm d’épaisseur3mm d’épaisseurLimites de l’appareil de test
Blin
dag
e (d
B)
Blin
dag
e (d
B)
Blin
dag
e (d
B)
Blin
dag
e (d
B)
FFFFréquence (MHz)réquence (MHz)réquence (MHz)réquence (MHz)
CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET
STRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLOR
Conductivité ThermiqueConductivité ThermiqueConductivité ThermiqueConductivité Thermique
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Conductivité thermique des polymèresConductivité thermique des polymèresConductivité thermique des polymèresConductivité thermique des polymères
Résine de base
Conductivité thermique améliorée
> 0.5 W/m.K
Compound standard ≈ 0.2 W/m.K
ConductivitéThermique réduite
< 0.2 W/m.K
Conducteurs thermiques et électriques
(Charges carbone)
Conducteurs thermiquesisolants électriques
(Charges céramiques)
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
Types de chargesTypes de chargesTypes de chargesTypes de charges
• Électriquement conducteur– Fibre de carbone
– Fibre de carbone broyée
– Fibre dérivée de brai de pétrole
– Graphite
– Autres charges à base de carbone
• Électriquement isolant– Céramiques
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
AvantagesAvantagesAvantagesAvantages
• Pourquoi remplacer le métal ?
– L’injection plastique permet des géométries plus complexes
– Augmentation des surfaces d’échange thermique
– Réduction de poids– Simplification de la fabrication– Résistance à la corrosion– Amélioration des performances à
l’usure– Abaissement du CTE (coefficient de
dilatation thermique)
• Plus grande liberté de conception
YOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICSYOUR GLOBAL COMPOUNDER OF CUSTOM ENGINEERED THERMOPLASTICS
InconvénientsInconvénientsInconvénientsInconvénients
• TransformationTransformationTransformationTransformation– Conserver le rapport d’aspect des charges (L/D)
• Propriétés physiquesPropriétés physiquesPropriétés physiquesPropriétés physiques– Densité élevée– Tenue au choc limitée
• Conductivité thermique relativement basseConductivité thermique relativement basseConductivité thermique relativement basseConductivité thermique relativement basse
Bas Élevé
Mousse
Élastomère
Plastique
CuivreDiamant
Compounds Conducteur Thermique
0.01 1.0 5.0 20 250 400 2300
Acier inox(316L)Al 2O3
Aluminium
CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET CONDUCTIVE • FLAME RETARDANT •FILM/SHEET
STRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLORSTRUCTURAL • ELASTOMERS • WEAR • COLOR
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