FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2897037259> ?p ?o ?g. }

• W2897037259 abstract "The ongoing efforts in the field of light weight design lead to a hybridization of engineering constructions which are currently dominated by metallic materials. Because of their advantageous strength to mass ratio plastics and especially fiber reinforced plastics have a high potential as light weight design material. However, metals will not be substituted completely because of technical and economic reasons, which leads to the challenge to join these dissimilar materials in order to further decrease the mass of light weight constructions. The investigations presented in this paper show the possibility to join endless long fiber reinforced thermoplastics with 6xxx - series aluminum. As plastic joining partner glass fiber reinforced PA6, PA66 and PP is used. In order to investigate the strength of the joint for different types of stress, tensile shear strength, pealing tension and fatigue strength tests were performed. The results of the experiments show separation forces up to 6.5 kN using PA6 as matrix material. Trials carried out with the matrix material PP showed significantly lower separation forces of 2 kN in a maximum. The process investigation showed a strong correlation between the process parameters laser power and feed rate and the separation force achieved. This leads to the conclusion that the joining temperature has to be adjusted carefully to the properties of the matrix material since it can be considered that it is mostly responsible for the formation of the joint.The ongoing efforts in the field of light weight design lead to a hybridization of engineering constructions which are currently dominated by metallic materials. Because of their advantageous strength to mass ratio plastics and especially fiber reinforced plastics have a high potential as light weight design material. However, metals will not be substituted completely because of technical and economic reasons, which leads to the challenge to join these dissimilar materials in order to further decrease the mass of light weight constructions. The investigations presented in this paper show the possibility to join endless long fiber reinforced thermoplastics with 6xxx - series aluminum. As plastic joining partner glass fiber reinforced PA6, PA66 and PP is used. In order to investigate the strength of the joint for different types of stress, tensile shear strength, pealing tension and fatigue strength tests were performed. The results of the experiments show separation forces up to 6.5 kN using PA6 as matrix ..." @default.
• W2897037259 created "2018-10-26" @default.
• W2897037259 creator A5025132281 @default.
• W2897037259 creator A5035205673 @default.
• W2897037259 creator A5072187283 @default.
• W2897037259 date "2013-01-01" @default.
• W2897037259 modified "2023-09-26" @default.
• W2897037259 title "Laser joining of endless long fiber reinforced thermoplastics with aluminum" @default.
• W2897037259 doi "https://doi.org/10.2351/1.5062863" @default.
• W2897037259 hasPublicationYear "2013" @default.
• W2897037259 type Work @default.
• W2897037259 sameAs 2897037259 @default.
• W2897037259 citedByCount "1" @default.
• W2897037259 countsByYear W28970372592015 @default.
• W2897037259 crossrefType "proceedings-article" @default.
• W2897037259 hasAuthorship W2897037259A5025132281 @default.
• W2897037259 hasAuthorship W2897037259A5035205673 @default.
• W2897037259 hasAuthorship W2897037259A5072187283 @default.
• W2897037259 hasConcept C112950240 @default.
• W2897037259 hasConcept C127413603 @default.
• W2897037259 hasConcept C159985019 @default.
• W2897037259 hasConcept C177229083 @default.
• W2897037259 hasConcept C18555067 @default.
• W2897037259 hasConcept C192562407 @default.
• W2897037259 hasConcept C519885992 @default.
• W2897037259 hasConcept C66938386 @default.
• W2897037259 hasConceptScore W2897037259C112950240 @default.
• W2897037259 hasConceptScore W2897037259C127413603 @default.
• W2897037259 hasConceptScore W2897037259C159985019 @default.
• W2897037259 hasConceptScore W2897037259C177229083 @default.
• W2897037259 hasConceptScore W2897037259C18555067 @default.
• W2897037259 hasConceptScore W2897037259C192562407 @default.
• W2897037259 hasConceptScore W2897037259C519885992 @default.
• W2897037259 hasConceptScore W2897037259C66938386 @default.
• W2897037259 hasLocation W28970372591 @default.
• W2897037259 hasOpenAccess W2897037259 @default.
• W2897037259 hasPrimaryLocation W28970372591 @default.
• W2897037259 hasRelatedWork W2061898640 @default.
• W2897037259 hasRelatedWork W2109932247 @default.
• W2897037259 hasRelatedWork W2183186631 @default.
• W2897037259 hasRelatedWork W2249157669 @default.
• W2897037259 hasRelatedWork W2249235978 @default.
• W2897037259 hasRelatedWork W2288804027 @default.
• W2897037259 hasRelatedWork W2321799844 @default.
• W2897037259 hasRelatedWork W2509463662 @default.
• W2897037259 hasRelatedWork W2517081581 @default.
• W2897037259 hasRelatedWork W2572349493 @default.
• W2897037259 hasRelatedWork W2792364282 @default.
• W2897037259 hasRelatedWork W2799835718 @default.
• W2897037259 hasRelatedWork W2989910996 @default.
• W2897037259 hasRelatedWork W3039623334 @default.
• W2897037259 hasRelatedWork W3108708074 @default.
• W2897037259 hasRelatedWork W3164789408 @default.
• W2897037259 hasRelatedWork W829551269 @default.
• W2897037259 hasRelatedWork W1480523602 @default.
• W2897037259 hasRelatedWork W2392228805 @default.
• W2897037259 hasRelatedWork W2826082390 @default.
• W2897037259 isParatext "false" @default.
• W2897037259 isRetracted "false" @default.
• W2897037259 magId "2897037259" @default.
• W2897037259 workType "article" @default.