Ho-Gyum Kim scite author profile

Ho-Gyum Kim

2Publications

2Citation Statements Received

126Citation Statements Given

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Preparation and flame retardancy of 2‐EHA/n‐BA acrylic PSA containing single and combined flame retardants

Park¹,

Kim²,

Lim³

et al. 2010

J of Applied Polymer Sci

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UV curable acrylic PSAs (pressure-sensitive adhesives) were modified with organic and inorganic flame retardants to improve flame retardancy of PSAs minimize the sacrifice of adhesion properties. The flame retardancy (UL-94 test) of acrylic PSAs were enhanced by the addition of 5-30 wt % of an organic flame retardant such as TCEP (Tris(2-chloroethyl)phosphate), PBPE (pentabromophenyl ether), and TBBPA(3,3 0 5,5 0 -tetrabromobisphenol A). Especially, TBBPA is the best flame retardant for acrylic PSAs when it works alone. However, PSAs compounded with aluminum trihydroxide (Al(OH) 3 ) showed a little reduction in burning time up to 30 wt %. An apparent synergic effect was observed only for an acrylic PSAs with a combination of TCEP and PBPE flame retardants. The addition of flame retardants brought a no significant effect on curing even in high amount. It was surmised that the miscibility between PSAs and flame retardant was closely related with flame retardancy and adhesion properties of acrylic PSAs.

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Effect of Phenolic Antioxidants System on Yellowing of Amorphous Poly-α-olefin

Kim

Kim²,

Park³

et al. 2013

Polymer Korea

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Phenolic antioxidants are effective stabilizers that provide excellent long-term heat stability by preventing thermo-oxidative degradation during processing and service life. However, under a selected set of circumstances, certain types of phenolics have been susceptible to discoloration due to prolonged storage in an environment containing oxides of nitrogen. It is investigated that the effect of addition of secondary antioxidant and chemical structure of primary antioxidant on discoloration of amorphous poly-α-olefin (APAO), which is especially prone to be decomposed in high processing temperature. From the result, it is concluded that a higher level of steric hindrance of phenolic antioxidant provided by long alkyl chain allows a more enhanced synergic effect with secondary antioxidant.

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Ho-Gyum Kim

Preparation and flame retardancy of 2‐EHA/n‐BA acrylic PSA containing single and combined flame retardants

Effect of Phenolic Antioxidants System on Yellowing of Amorphous Poly-α-olefin

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