Karl Schulte

What is he best known for?

The fields of study he is best known for:

• Composite material
• Polymer
• Organic chemistry

Karl Schulte mainly focuses on Composite material, Epoxy, Carbon nanotube, Nanocomposite and Polymer. Karl Schulte merges many fields, such as Composite material and Carbon black, in his writings. His studies in Epoxy integrate themes in fields like Residual stress, Carbon nanotube metal matrix composites, Dynamic mechanical analysis, Graphite and Pyrolysis.

His Carbon nanotube research is multidisciplinary, relying on both Nanoparticle and Sensor materials. His Nanocomposite research is multidisciplinary, incorporating elements of Crystallinity, Mechanical properties of carbon nanotubes and Thermosetting polymer. Karl Schulte has researched Polymer in several fields, including Dispersion, Thermal conductivity and Specific surface area.

His most cited work include:

• Development of a dispersion process for carbon nanotubes in an epoxy matrix and the resulting electrical properties (1250 citations)
• Carbon nanotube-reinforced epoxy-composites: enhanced stiffness and fracture toughness at low nanotube content (1201 citations)
• Influence of different carbon nanotubes on the mechanical properties of epoxy matrix composites – A comparative study (1004 citations)

What are the main themes of his work throughout his whole career to date?

His scientific interests lie mostly in Composite material, Epoxy, Carbon nanotube, Nanocomposite and Composite number. While working on this project, Karl Schulte studies both Composite material and Carbon black. His Epoxy research also works with subjects such as

• Graphene, which have a strong connection to Oxide,
• Residual stress that connect with fields like Finite element method.

His study in Carbon nanotube is interdisciplinary in nature, drawing from both Dispersion, Carbon, Glass transition and Scanning electron microscope. His research in Nanocomposite intersects with topics in Crystallinity, Dynamic mechanical analysis and Polymer chemistry. Karl Schulte has included themes like Fracture mechanics and Toughness in his Fracture toughness study.

He most often published in these fields:

• Composite material (86.00%)
• Epoxy (31.43%)
• Carbon nanotube (29.14%)

What were the highlights of his more recent work (between 2012-2019)?

• Composite material (86.00%)
• Epoxy (31.43%)
• Nanocomposite (24.29%)

In recent papers he was focusing on the following fields of study:

Karl Schulte mainly investigates Composite material, Epoxy, Nanocomposite, Carbon nanotube and Composite number. His study looks at the intersection of Composite material and topics like Graphene with Oxide. His Epoxy study integrates concerns from other disciplines, such as Ultimate tensile strength, Graphite, Solid mechanics and Scanning electron microscope.

He focuses mostly in the field of Nanocomposite, narrowing it down to topics relating to Electrical resistance and conductance and, in certain cases, Electrical conductor. His work investigates the relationship between Carbon nanotube and topics such as Nanoparticle that intersect with problems in Penetration and Energy absorption. His Composite number research includes themes of Hydrothermal circulation and Void.

Between 2012 and 2019, his most popular works were:

• Fracture toughness and failure mechanism of graphene based epoxy composites (288 citations)
• Fracture toughness and failure mechanism of graphene based epoxy composites (288 citations)
• Preparation and characterization of graphite nano-platelet (GNP)/epoxy nano-composite: Mechanical, electrical and thermal properties (192 citations)

In his most recent research, the most cited papers focused on:

• Composite material
• Polymer
• Organic chemistry

His primary areas of investigation include Composite material, Epoxy, Nanocomposite, Graphene and Carbon nanotube. Karl Schulte merges Composite material with Three roll mill in his study. His work deals with themes such as Graphite, Dynamic mechanical analysis and Fracture toughness, which intersect with Epoxy.

His Nanocomposite study combines topics in areas such as Nano composites and Electrical resistance and conductance. His Graphene course of study focuses on Oxide and Cathodoluminescence, Visible spectrum, Hybrid material and Optoelectronics. His Carbon nanotube research incorporates elements of Chemical vapor deposition, Modulus, Piezoresistive effect, Thermal expansion and Thermal conduction.

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