Neat Resin, Adhesive and Composite Properties of Reactive Additive/PETI-5 Blends

PETI-5 (5000 g mol −1) is a relatively new adhesive and composite matrix that exhibits good processability and excellent properties. However in the fabrication of complex composite parts (i.e. skin stringer and support frames), better processability would offer distinct advantages. In an effort to i...

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Published inHigh performance polymers Vol. 12; no. 2; pp. 323 - 333
Main Authors Connell, John W, Smith, Joseph G, Hergenrother, Paul M, Rommel, Monica L
Format Journal Article
LanguageEnglish
Published 01.06.2000
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Abstract PETI-5 (5000 g mol −1) is a relatively new adhesive and composite matrix that exhibits good processability and excellent properties. However in the fabrication of complex composite parts (i.e. skin stringer and support frames), better processability would offer distinct advantages. In an effort to improve the processability of PETI-5, a novel reactive additive was prepared and used to formulate blends. The reactive additive is a mixture of relatively simple phenylethynyl containing imides. As such, it exhibited solubility in a variety of solvents such as N-methyl-2-pyrrolidinone, a relatively low softening temperature ∼185°C) and a low melt viscosity (∼0.1–0.3 Pa s at 250°C). Neat resin blends prepared by physically mixing imide powders of the reactive additive and PETI-5 were thermally and rheologically characterized. Blends were also prepared by mixing NMP solutions of PETI-5 amide acid and the reactive additive (imide form). These solutions were subsequently used to prepare adhesive film and unidirectional carbon fibre tape using unsized IM7 fibre. The reactive additive/PETI-5 blends were used to fabricate titanium adhesive panels and composites under 0.54 MPa or less for 1 h at 350–371°C. The effect of reactive additive content on the physical, rheological, adhesive and carbon fibre laminate properties was determined. One formulation exhibited a decrease in melt viscosity (i.e. improved processability) without effecting open hole compression, compression properties after impact or microcrack behaviour. The neat resin, adhesive and composite properties of these reactive additive/PETI-5 blends and their cured polymers will be discussed.
AbstractList PETI-5 (5000 g mol −1) is a relatively new adhesive and composite matrix that exhibits good processability and excellent properties. However in the fabrication of complex composite parts (i.e. skin stringer and support frames), better processability would offer distinct advantages. In an effort to improve the processability of PETI-5, a novel reactive additive was prepared and used to formulate blends. The reactive additive is a mixture of relatively simple phenylethynyl containing imides. As such, it exhibited solubility in a variety of solvents such as N-methyl-2-pyrrolidinone, a relatively low softening temperature ∼185°C) and a low melt viscosity (∼0.1–0.3 Pa s at 250°C). Neat resin blends prepared by physically mixing imide powders of the reactive additive and PETI-5 were thermally and rheologically characterized. Blends were also prepared by mixing NMP solutions of PETI-5 amide acid and the reactive additive (imide form). These solutions were subsequently used to prepare adhesive film and unidirectional carbon fibre tape using unsized IM7 fibre. The reactive additive/PETI-5 blends were used to fabricate titanium adhesive panels and composites under 0.54 MPa or less for 1 h at 350–371°C. The effect of reactive additive content on the physical, rheological, adhesive and carbon fibre laminate properties was determined. One formulation exhibited a decrease in melt viscosity (i.e. improved processability) without effecting open hole compression, compression properties after impact or microcrack behaviour. The neat resin, adhesive and composite properties of these reactive additive/PETI-5 blends and their cured polymers will be discussed.
PETI-5 (5000 g/mol) is a relatively new adhesive and composite matrix that exhibits good processability and excellent properties. However, in the fabrication of complex composite parts, i.e., skin stringer and support frames, better processability would offer distinct advantages. In an effort to improve the processability of PETI-5, a novel reactive additive was prepared and used to formulate blends. The reactive additive is a mixture of relatively simple phenylethynyl containing iraides. As such, it exhibited solubility in a variety of solvents such as N-methyl-2-pyrrolidinone, a relatively low softening temperature (~185 C), and a low melt viscosity (~0.1-0.3 Pa s at 250 C). Neat resin blends prepared by physically mixing imide powders of the reactive additive and PETI5 were thermally and rheologically characterized. Blends were also prepared by mixing NMP solutions of PETI-5 amide acid and the reactive additive (imide form). These solutions were subsequently used to prepare adhesive film and unidirectional carbon fiber tape using unsized IM7 fiber. The reactive additive/PETI-5 blends were used to fabricate titanium adhesive panels and composites under 0.54 MPa or less for 1 h at 350-371 C. The effect of reactive additive content on the physical, rheological, adhesive, and carbon fiber laminate properties was determined. One formulation exhibited a decrease in melt viscosity (i.e., improved processability) without effecting open hole compression, compression properties after impact, or microcrack behavior. The neat resin, adhesive, and composite properties of these reactive additive/PETI-5 blends and their cured polymers are discussed. (Author)
PETI-5 (5000 g mol -1) is a relatively new adhesive and composite matrix that exhibits good processability and excellent properties. However in the fabrication of complex composite parts (i.e. skin stringer and support frames), better processability would offer distinct advantages. In an effort to improve the processability of PETI-5, a novel reactive additive was prepared and used to formulate blends. The reactive additive is a mixture of relatively simple phenylethynyl containing imides. As such, it exhibited solubility in a variety of solvents such as N-methyl-2-pyrrolidinone, a relatively low softening temperature 6185'C) and a low melt viscosity (60.1-0.3 Pa s at 250'C). Neat resin blends prepared by physically mixing imide powders of the reactive additive and PETI-5 were thermally and rheologically characterized. Blends were also prepared by mixing NMP solutions of PETI-5 amide acid and the reactive additive (imide form). These solutions were subsequently used to prepare adhesive film and unidirectional carbon fibre tape using unsized IM7 fibre. The reactive additive/PETI-5 blends were used to fabricate titanium adhesive panels and composites under 0.54 MPa or less for 1 h at 350-371'C. The effect of reactive additive content on the physical, rheological, adhesive and carbon fibre laminate properties was determined. One formulation exhibited a decrease in melt viscosity (i.e. improved processability) without effecting open hole compression, compression properties after impact or microcrack behaviour. The neat resin, adhesive and composite properties of these reactive additive/PETI-5 blends and their cured polymers will be discussed.
PETI-5 [phenylethynyl terminated imide](5000 g mol exp -1 ) is a relatively new adhesive and composite matrix that exhibits good processability and excellent properties. However in the fabrication of complex composite parts (i.e. skin stringer and support frames), better processability would offer distinct advantages. In an effort to improve the processability of PETI-5, a novel reactive additive was prepared and used to formulate blends. The reactive additive is a mixture of relatively simple phenylethynyl containing imides. As such, it exhibited solubility in a variety of solvents such as N-methyl-2-pyrrolidinone, a relatively low softening temperature (approx = 185 deg C) and a low melt viscosity (approx =0.1-0.3 Pa s at 250 deg C). Neat resin blends prepared by physically mixing imide powders of the reactive additive and PETI-5 were thermally and rheologically characterized. Blends were also prepared by mixing NMP solutions of PETI-5 amide acid and the reactive additive (imide form). These solutions were subsequently used to prepare adhesive film and unidirectional carbon fibre tape using unsized IM7 fibre. The reactive additive/PETI-5 blends were used to fabricate titanium adhesive panels and composites under 0.54 MPa or less for 1 h at 350-371 deg C. The effect of reactive additive content on the physical, rheological, adhesive and carbon fibre laminate properties was determined. One formulation exhibited a decrease in melt viscosity (i.e. improved processability) without effecting open hole compression, compression properties after impact or microcrack behaviour. The neat resin, adhesive and composite properties of these reactive additive/PETI-5 blends and their cured polymers will be discussed.
Author Hergenrother, Paul M
Rommel, Monica L
Connell, John W
Smith, Joseph G
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Snippet PETI-5 (5000 g mol −1) is a relatively new adhesive and composite matrix that exhibits good processability and excellent properties. However in the fabrication...
PETI-5 (5000 g/mol) is a relatively new adhesive and composite matrix that exhibits good processability and excellent properties. However, in the fabrication...
PETI-5 [phenylethynyl terminated imide](5000 g mol exp -1 ) is a relatively new adhesive and composite matrix that exhibits good processability and excellent...
PETI-5 (5000 g mol -1) is a relatively new adhesive and composite matrix that exhibits good processability and excellent properties. However in the fabrication...
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Title Neat Resin, Adhesive and Composite Properties of Reactive Additive/PETI-5 Blends
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