In this work, an innovative technique for adhesive joint separation that combines the use of a hybrid-modified adhesive with microwave (MW) or induction heating (IH) [1-3] processes is presented. Graphene nanoplatelets (GnPs) and iron oxide particles were used to modify a thermoplastic adhesive, polyolefin hot-melt adhesive by mean of a twin-screw extruder. This thermoplastic adhesive, already used for bonding automotive applications, was modified with both iron oxide and GnPs in order to enhance the electrical properties and the sensitivity to MW and IH. The mechanical and electrical properties together with the sensitivity of the modified adhesives to microwave or induction heating processes are investigated. Single Lap Joint (SLJ) specim...
Joining by adhesive bonding gains more interest for structural compounds, because there are many adv...
The autoclave/oven curing process is known to be the current manufacturing technique that provides t...
In this thesis, the phenomenon of carbon nanoparticles producing a strong, rapid heating response in...
The potential use of exfoliated graphite nanoplatelets have been explored in many areas of science a...
The use of nano and microfillers in research and industrial areas have been increasing in recent dec...
In the constructive field, adhesive bonding technology is gaining greater significance since, in con...
The work in hand approaches the concept-development and characterization of a debonding-ondemand-sys...
Previous experiments have shown that microwave curing of epoxies reduces the curing time and could l...
An adhesive based on a Fe3O4-nanoparticle (MNP)-doped epoxy resin was proposed for the development o...
Microwave energy is very efficiently being harnessed to join metallic materials these days. Although...
Dismantleable structural adhesion is required to facilitate the recycling and re-use of critical mat...
Adhesive bonding is a very promising joining technology for structural applications in aerospace, au...
Past experiments have shown that the microwave curing of epoxies reduces the curing time and has fav...
Fast curing of adhesively bonded connections is increasingly moving into the focus of research and d...
Epoxy resin (ER) thermosetting adhesives provide highly cross-linked 3-dimensional structures leadin...
Joining by adhesive bonding gains more interest for structural compounds, because there are many adv...
The autoclave/oven curing process is known to be the current manufacturing technique that provides t...
In this thesis, the phenomenon of carbon nanoparticles producing a strong, rapid heating response in...
The potential use of exfoliated graphite nanoplatelets have been explored in many areas of science a...
The use of nano and microfillers in research and industrial areas have been increasing in recent dec...
In the constructive field, adhesive bonding technology is gaining greater significance since, in con...
The work in hand approaches the concept-development and characterization of a debonding-ondemand-sys...
Previous experiments have shown that microwave curing of epoxies reduces the curing time and could l...
An adhesive based on a Fe3O4-nanoparticle (MNP)-doped epoxy resin was proposed for the development o...
Microwave energy is very efficiently being harnessed to join metallic materials these days. Although...
Dismantleable structural adhesion is required to facilitate the recycling and re-use of critical mat...
Adhesive bonding is a very promising joining technology for structural applications in aerospace, au...
Past experiments have shown that the microwave curing of epoxies reduces the curing time and has fav...
Fast curing of adhesively bonded connections is increasingly moving into the focus of research and d...
Epoxy resin (ER) thermosetting adhesives provide highly cross-linked 3-dimensional structures leadin...
Joining by adhesive bonding gains more interest for structural compounds, because there are many adv...
The autoclave/oven curing process is known to be the current manufacturing technique that provides t...
In this thesis, the phenomenon of carbon nanoparticles producing a strong, rapid heating response in...