The Cross-Linking and Degradation of Paraffin Chains by High-Energy Radiation

n-Paraffins from C7H16 to C36 H74 and polyethylene polymers (Polythene and Winnothene) have been subjected to atomic pile radiation. For the paraffins there is a decrease in the melting-point, until, for a radiation dose R, they no longer melt at temperatures of 160° C or above. At about this same r...

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Veröffentlicht in:	Proc. Roy. Soc. (London) 1954-02, Vol.222 (1148), p.60-74
1. Verfasser:	Charlesby, A.
Format:	Artikel
Sprache:	eng
Schlagworte:	ALPHA DECAY ATOMS CARBON CHEMISTRY DECOMPOSITION DENSITY DEUTERON BEAMS ECONOMICS ENERGY LEVELS GASES Gels HEATING HYDROCARBONS Hydrogen IRRADIATION LIQUIDS MELTING POINTS Methane Molecular weight Molecules POLYETHYLENES POLYMERIZATION Polymers POWER QUANTITY RATIO Radiation dosage RADIATION DOSES RADIATION EFFECTS RADIOISOTOPES RE-ENTRY REACTORS SAFETY SNAP SYSTEMS SOLIDS SOLUBILITY SPACE THERMOELECTRICITY
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description	n-Paraffins from C7H16 to C36 H74 and polyethylene polymers (Polythene and Winnothene) have been subjected to atomic pile radiation. For the paraffins there is a decrease in the melting-point, until, for a radiation dose R, they no longer melt at temperatures of 160° C or above. At about this same radiation the paraffin is turned into an insoluble gel. The product Rnρ, where n is the number of carbons per atom, and ρ the density, is approximately constant from heptane (n = 7) to Polythene (n ~ 2000), although an anomaly may occur for Winnothene (n ~ 250). This indicates that the energy required to form a cross-link is approximately independent of chain length. An analysis of published experiments on methane and butane extends this conclusion down to n = 1. The results obtained by earlier workers when paraffinic gases are bombarded with deuterons and α-particles are explained in terms of the cross-linking phenomenon. Solubility measurements give similar values for Rnρ in the case of Polythene and Winnothene, and show that for every cross-link formed, on the average about 0·35 C—C bonds in the main chain are fractured. Similar values are obtained for methane and butane. The energy absorbed per C—H bond fracture is about 12 eV, and the energy per cross-link is 24 eV. This corresponds to 0·5 % of carbons becoming cross-linked per unit radiation, independent of the physical state (solid, liquid or gaseous) of the irradiated paraffin. The importance of these results, as far as polymerization theory is concerned, is briefly discussed.
doi_str_mv	10.1098/rspa.1954.0052
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For the paraffins there is a decrease in the melting-point, until, for a radiation dose R, they no longer melt at temperatures of 160° C or above. At about this same radiation the paraffin is turned into an insoluble gel. The product Rnρ, where n is the number of carbons per atom, and ρ the density, is approximately constant from heptane (n = 7) to Polythene (n ~ 2000), although an anomaly may occur for Winnothene (n ~ 250). This indicates that the energy required to form a cross-link is approximately independent of chain length. An analysis of published experiments on methane and butane extends this conclusion down to n = 1. The results obtained by earlier workers when paraffinic gases are bombarded with deuterons and α-particles are explained in terms of the cross-linking phenomenon. Solubility measurements give similar values for Rnρ in the case of Polythene and Winnothene, and show that for every cross-link formed, on the average about 0·35 C—C bonds in the main chain are fractured. Similar values are obtained for methane and butane. The energy absorbed per C—H bond fracture is about 12 eV, and the energy per cross-link is 24 eV. This corresponds to 0·5 % of carbons becoming cross-linked per unit radiation, independent of the physical state (solid, liquid or gaseous) of the irradiated paraffin. The importance of these results, as far as polymerization theory is concerned, is briefly discussed.</description><identifier>ISSN: 1364-5021</identifier><identifier>ISSN: 0080-4630</identifier><identifier>EISSN: 1471-2946</identifier><identifier>EISSN: 2053-9169</identifier><identifier>DOI: 10.1098/rspa.1954.0052</identifier><language>eng</language><publisher>London: The Royal Society</publisher><subject>ALPHA DECAY ; ATOMS ; CARBON ; CHEMISTRY ; DECOMPOSITION ; DENSITY ; DEUTERON BEAMS ; ECONOMICS ; ENERGY LEVELS ; GASES ; Gels ; HEATING ; HYDROCARBONS ; Hydrogen ; IRRADIATION ; LIQUIDS ; MELTING POINTS ; Methane ; Molecular weight ; Molecules ; POLYETHYLENES ; POLYMERIZATION ; Polymers ; POWER ; QUANTITY RATIO ; Radiation dosage ; RADIATION DOSES ; RADIATION EFFECTS ; RADIOISOTOPES ; RE-ENTRY ; REACTORS ; SAFETY ; SNAP SYSTEMS ; SOLIDS ; SOLUBILITY ; SPACE ; THERMOELECTRICITY</subject><ispartof>Proc. Roy. Soc. 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Roy. Soc. (London)</title><addtitle>Proc. R. Soc. Lond. A</addtitle><addtitle>Proc. R. Soc. Lond. A</addtitle><description>n-Paraffins from C7H16 to C36 H74 and polyethylene polymers (Polythene and Winnothene) have been subjected to atomic pile radiation. For the paraffins there is a decrease in the melting-point, until, for a radiation dose R, they no longer melt at temperatures of 160° C or above. At about this same radiation the paraffin is turned into an insoluble gel. The product Rnρ, where n is the number of carbons per atom, and ρ the density, is approximately constant from heptane (n = 7) to Polythene (n ~ 2000), although an anomaly may occur for Winnothene (n ~ 250). This indicates that the energy required to form a cross-link is approximately independent of chain length. An analysis of published experiments on methane and butane extends this conclusion down to n = 1. The results obtained by earlier workers when paraffinic gases are bombarded with deuterons and α-particles are explained in terms of the cross-linking phenomenon. Solubility measurements give similar values for Rnρ in the case of Polythene and Winnothene, and show that for every cross-link formed, on the average about 0·35 C—C bonds in the main chain are fractured. Similar values are obtained for methane and butane. The energy absorbed per C—H bond fracture is about 12 eV, and the energy per cross-link is 24 eV. This corresponds to 0·5 % of carbons becoming cross-linked per unit radiation, independent of the physical state (solid, liquid or gaseous) of the irradiated paraffin. The importance of these results, as far as polymerization theory is concerned, is briefly discussed.</description><subject>ALPHA DECAY</subject><subject>ATOMS</subject><subject>CARBON</subject><subject>CHEMISTRY</subject><subject>DECOMPOSITION</subject><subject>DENSITY</subject><subject>DEUTERON BEAMS</subject><subject>ECONOMICS</subject><subject>ENERGY LEVELS</subject><subject>GASES</subject><subject>Gels</subject><subject>HEATING</subject><subject>HYDROCARBONS</subject><subject>Hydrogen</subject><subject>IRRADIATION</subject><subject>LIQUIDS</subject><subject>MELTING POINTS</subject><subject>Methane</subject><subject>Molecular weight</subject><subject>Molecules</subject><subject>POLYETHYLENES</subject><subject>POLYMERIZATION</subject><subject>Polymers</subject><subject>POWER</subject><subject>QUANTITY RATIO</subject><subject>Radiation dosage</subject><subject>RADIATION DOSES</subject><subject>RADIATION EFFECTS</subject><subject>RADIOISOTOPES</subject><subject>RE-ENTRY</subject><subject>REACTORS</subject><subject>SAFETY</subject><subject>SNAP SYSTEMS</subject><subject>SOLIDS</subject><subject>SOLUBILITY</subject><subject>SPACE</subject><subject>THERMOELECTRICITY</subject><issn>1364-5021</issn><issn>0080-4630</issn><issn>1471-2946</issn><issn>2053-9169</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1954</creationdate><recordtype>article</recordtype><recordid>eNp9UcFu1DAQjRBIlMKVA6eIe5Zx7MTxBakKhUXailIKHEeOY2-8XZyVnQXC1-MkqKJC9GSP5r2Z994kyXMCKwKieuXDQa6IKNgKoMgfJCeEcZLlgpUP45-WLCsgJ4-TJyHsAEAUFT9JLq47nda-DyHbWHdj3TaVrk3f6K2XrRxs79LepJfSS2OsS-tOWhfSZkzXdttl50777ZheydbO2KfJIyP3QT_7854mn9-eX9frbPPh3fv6bJOpouRDplXTEK2gZSqvdFuKQlFGaSUktEYb2lRGUqZYzhti8qYlQhsBpQauW942BT1NXi5z-zBYDMoOWnWqd06rARnlUJAyglYLSE32vDZ48Pab9CMSwCkxnBLDKTGcEouEsBB8P0b1vbJ6GHHXH72LJV59ujwjglbf8zy3hLAKoaIEOOGQ4y97mMdNAIwAtCEcNc6wu2v-3Urv2_pfrS8W1i4Mvb91JgTlk_Nsadow6J-3TelvsOSUF_ilYljD-qOAi69YRTws-C4e9Yf1Gu9oicXBBznbmg2VECmv76VMauNBBu2Gv3lojvs9HlpDfwPo09Vd</recordid><startdate>19540223</startdate><enddate>19540223</enddate><creator>Charlesby, A.</creator><general>The Royal Society</general><general>Cambridge University Press</general><scope>BSCLL</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>OTOTI</scope></search><sort><creationdate>19540223</creationdate><title>The Cross-Linking and Degradation of Paraffin Chains by High-Energy Radiation</title><author>Charlesby, A.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c567t-ecbb1ec0d4c28ed695c343389a0dfef3b8fa34c427b1f2bd19ef906e07ed7db53</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1954</creationdate><topic>ALPHA DECAY</topic><topic>ATOMS</topic><topic>CARBON</topic><topic>CHEMISTRY</topic><topic>DECOMPOSITION</topic><topic>DENSITY</topic><topic>DEUTERON BEAMS</topic><topic>ECONOMICS</topic><topic>ENERGY LEVELS</topic><topic>GASES</topic><topic>Gels</topic><topic>HEATING</topic><topic>HYDROCARBONS</topic><topic>Hydrogen</topic><topic>IRRADIATION</topic><topic>LIQUIDS</topic><topic>MELTING POINTS</topic><topic>Methane</topic><topic>Molecular weight</topic><topic>Molecules</topic><topic>POLYETHYLENES</topic><topic>POLYMERIZATION</topic><topic>Polymers</topic><topic>POWER</topic><topic>QUANTITY RATIO</topic><topic>Radiation dosage</topic><topic>RADIATION DOSES</topic><topic>RADIATION EFFECTS</topic><topic>RADIOISOTOPES</topic><topic>RE-ENTRY</topic><topic>REACTORS</topic><topic>SAFETY</topic><topic>SNAP SYSTEMS</topic><topic>SOLIDS</topic><topic>SOLUBILITY</topic><topic>SPACE</topic><topic>THERMOELECTRICITY</topic><toplevel>online_resources</toplevel><creatorcontrib>Charlesby, A.</creatorcontrib><creatorcontrib>Atomic Energy Research Establishment, Harwell, Berks, England</creatorcontrib><collection>Istex</collection><collection>CrossRef</collection><collection>OSTI.GOV</collection><jtitle>Proc. Roy. Soc. (London)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Charlesby, A.</au><aucorp>Atomic Energy Research Establishment, Harwell, Berks, England</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The Cross-Linking and Degradation of Paraffin Chains by High-Energy Radiation</atitle><jtitle>Proc. Roy. Soc. (London)</jtitle><stitle>Proc. R. Soc. Lond. A</stitle><addtitle>Proc. R. Soc. Lond. A</addtitle><date>1954-02-23</date><risdate>1954</risdate><volume>222</volume><issue>1148</issue><spage>60</spage><epage>74</epage><pages>60-74</pages><issn>1364-5021</issn><issn>0080-4630</issn><eissn>1471-2946</eissn><eissn>2053-9169</eissn><abstract>n-Paraffins from C7H16 to C36 H74 and polyethylene polymers (Polythene and Winnothene) have been subjected to atomic pile radiation. For the paraffins there is a decrease in the melting-point, until, for a radiation dose R, they no longer melt at temperatures of 160° C or above. At about this same radiation the paraffin is turned into an insoluble gel. The product Rnρ, where n is the number of carbons per atom, and ρ the density, is approximately constant from heptane (n = 7) to Polythene (n ~ 2000), although an anomaly may occur for Winnothene (n ~ 250). This indicates that the energy required to form a cross-link is approximately independent of chain length. An analysis of published experiments on methane and butane extends this conclusion down to n = 1. The results obtained by earlier workers when paraffinic gases are bombarded with deuterons and α-particles are explained in terms of the cross-linking phenomenon. Solubility measurements give similar values for Rnρ in the case of Polythene and Winnothene, and show that for every cross-link formed, on the average about 0·35 C—C bonds in the main chain are fractured. Similar values are obtained for methane and butane. The energy absorbed per C—H bond fracture is about 12 eV, and the energy per cross-link is 24 eV. This corresponds to 0·5 % of carbons becoming cross-linked per unit radiation, independent of the physical state (solid, liquid or gaseous) of the irradiated paraffin. The importance of these results, as far as polymerization theory is concerned, is briefly discussed.</abstract><cop>London</cop><pub>The Royal Society</pub><doi>10.1098/rspa.1954.0052</doi><tpages>15</tpages></addata></record>
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subjects	ALPHA DECAY ATOMS CARBON CHEMISTRY DECOMPOSITION DENSITY DEUTERON BEAMS ECONOMICS ENERGY LEVELS GASES Gels HEATING HYDROCARBONS Hydrogen IRRADIATION LIQUIDS MELTING POINTS Methane Molecular weight Molecules POLYETHYLENES POLYMERIZATION Polymers POWER QUANTITY RATIO Radiation dosage RADIATION DOSES RADIATION EFFECTS RADIOISOTOPES RE-ENTRY REACTORS SAFETY SNAP SYSTEMS SOLIDS SOLUBILITY SPACE THERMOELECTRICITY
title	The Cross-Linking and Degradation of Paraffin Chains by High-Energy Radiation
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