Add to ORKGOrb-web weaving spiders depend upon the mechanical performance of capture threads to absorb the energy of flying prey. Most orb-weavers spin wet capture threads with core fibers of flagelliform silk. These threads are extremely compliant and extensible due to the folding of their constituent proteins into molecular nanosprings and hydration by a surrounding coating of aqueous glue. In contrast, other orb-weavers use cribellate capture threads, which are composite structures consisting of core fibers of pseudoflagelliform silk surrounded by a matrix of fine dry cribellar fibrils. Based on phylogenetic evidence, cribellate capture threads predate the use of viscid capture threads. To better characterize how pseudoflagelliform and cribellar fi...
Mechanical performance of biological structures, such as tendons, byssal threads, muscles, and spide...
Silks from orb-weaving spiders are exceptionally tough, producing a model polymer for biomimetic fib...
Spiders construct a wide variety of silk structures, ranging from draglines to prey capture webs. Sp...
Spider silk production has been studied intensively during the last years due to their mechanical pr...
Most spider threads are on the micrometre and sub-micrometre scale. Yet, there are some spiders that...
Orb-weaving spiders rely on sticky capture threads to retain prey long enough to be located and atta...
Orb-weaving spiders produce webs using two types of silk that have radically different mechanical pr...
Abstract Spider capture silk is a natural scaffolding material that outperforms most synthetic mater...
Web-building spiders are an extremely diverse predatory group due to their use of physiologically di...
Spider silk is renowned for its high tensile strength, extensibility and toughness. However, the var...
Spiders and their silk are an excellent system for connecting the properties of biological materials...
The two major types of silk seen, are cribellate and viscid silk. Cribellate silk is produced by the...
Mechanical performance of biological structures, such as tendons, byssal threads, muscles, and spide...
Spiders spin a variety of silk fibers and integrate them into webs with a wide range of architecture...
Silks from orb-weaving spiders are exceptionally tough, producing a model polymer for biomimetic fib...
Mechanical performance of biological structures, such as tendons, byssal threads, muscles, and spide...
Silks from orb-weaving spiders are exceptionally tough, producing a model polymer for biomimetic fib...
Spiders construct a wide variety of silk structures, ranging from draglines to prey capture webs. Sp...
Spider silk production has been studied intensively during the last years due to their mechanical pr...
Most spider threads are on the micrometre and sub-micrometre scale. Yet, there are some spiders that...
Orb-weaving spiders rely on sticky capture threads to retain prey long enough to be located and atta...
Orb-weaving spiders produce webs using two types of silk that have radically different mechanical pr...
Abstract Spider capture silk is a natural scaffolding material that outperforms most synthetic mater...
Web-building spiders are an extremely diverse predatory group due to their use of physiologically di...
Spider silk is renowned for its high tensile strength, extensibility and toughness. However, the var...
Spiders and their silk are an excellent system for connecting the properties of biological materials...
The two major types of silk seen, are cribellate and viscid silk. Cribellate silk is produced by the...
Mechanical performance of biological structures, such as tendons, byssal threads, muscles, and spide...
Spiders spin a variety of silk fibers and integrate them into webs with a wide range of architecture...
Silks from orb-weaving spiders are exceptionally tough, producing a model polymer for biomimetic fib...
Mechanical performance of biological structures, such as tendons, byssal threads, muscles, and spide...
Silks from orb-weaving spiders are exceptionally tough, producing a model polymer for biomimetic fib...
Spiders construct a wide variety of silk structures, ranging from draglines to prey capture webs. Sp...