The definition of stress cracking according to ASTM D883 is “an external or internal crack in a plastic
caused by tensile stresses less than its short-term mechanical strength.” This type of cracking typically
involves brittle cracking, with little or no ductile drawing of the polymeric material from its adjacent failure
surfaces. Slow crack growth is another term commonly used to describe stress cracking.
The best known type of slow crack growth is “environmental stress cracking” or ESC. These are instances
involving cracking of stressed samples, generally in the presence of surface active wetting agents such
as alcohols, soaps, surfactants, or others. The surface-active agents do not chemically attack the polymer
nor produce any effect other than microscopically brittle-appearing fractures. In the absence of the
surface-active environment, these fractures
would not occur in any reasonable period of time under the same stress conditions. These cracks are
generally thought to initiate at microscopic imperfections and propagate through the crystalline regions of
the polymer structure. The ability of a polymer to resist slow crack growth or environmental stress
cracking is known as ESCR. Different polymers exhibit varying degrees of ESCR. Some grades of HDPE
have very good resistance against ESC, while some have marginal resilience
The definition of stress cracking according to ASTM D883 is “an external or internal crack in a plastic
caused by tensile stresses less than its short-term mechanical strength.” This type of cracking typically
involves brittle cracking, with little or no ductile drawing of the polymeric material from its adjacent failure
surfaces. Slow crack growth is another term commonly used to describe stress cracking.
The best known type of slow crack growth is “environmental stress cracking” or ESC. These are instances
involving cracking of stressed samples, generally in the presence of surface active wetting agents such
as alcohols, soaps, surfactants, or others. The surface-active agents do not chemically attack the polymer
nor produce any effect other than microscopically brittle-appearing fractures. In the absence of the
surface-active environment, these fractures
would not occur in any reasonable period of time under the same stress conditions. These cracks are
generally thought to initiate at microscopic imperfections and propagate through the crystalline regions of
the polymer structure. The ability of a polymer to resist slow crack growth or environmental stress
cracking is known as ESCR. Different polymers exhibit varying degrees of ESCR. Some grades of HDPE
have very good resistance against ESC, while some have marginal resilience
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