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131+
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136+
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137+
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138+
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139+
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140+
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141+
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142+
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143+
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144+
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145+
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146+
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147+
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148+
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149+
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150+
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151+
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152+
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153+
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154+
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157+
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158+
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159+
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160+
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161+
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162+
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163+
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164+
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165+
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166+
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167+
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168+
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169+
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170+
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171+
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172+
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173+
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174+
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175+
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176+
</citation>
177+
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178+
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179+
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180+
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181+
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182+
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183+
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184+
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185+
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186+
</citation>
187+
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188+
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189+
<author>Voller</author>
190+
<journal_title>International Journal of Heat and Mass Transfer</journal_title>
191+
<issue>8</issue>
192+
<volume>30</volume>
193+
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194+
<cYear>1987</cYear>
195+
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196+
</citation>
197+
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198+
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199+
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200+
<isbn>978-0913478080</isbn>
201+
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202+
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203+
</citation>
204+
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205+
<volume_title>Materials science and engineering: An introduction</volume_title>
206+
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207+
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208+
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209+
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210+
</citation>
211+
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212+
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213+
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214+
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215+
<isbn>978-0486411811</isbn>
216+
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217+
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218+
</citation>
219+
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220+
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221+
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222+
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223+
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224+
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225+
</citation>
226+
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227+
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228+
<author>Wilkinson</author>
229+
<journal_title>Scientific Data</journal_title>
230+
<issue>1</issue>
231+
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232+
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233+
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234+
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235+
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236+
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237+
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