000130754 001__ 130754
000130754 005__ 20180913055027.0
000130754 013__ $$aCA1338006$$bCA$$cC$$d19960130
000130754 013__ $$aUS5477905$$bUS$$cA$$d19951226
000130754 013__ $$aAT113317$$bAT$$cT$$d19941115
000130754 013__ $$aEP0346771$$bEP$$cB1$$d19941026
000130754 013__ $$aNO174007$$bNO$$cC$$d19940302
000130754 013__ $$aNO174007$$bNO$$cB$$d19931122
000130754 013__ $$aEP0346771$$bEP$$cA1$$d19891220
000130754 013__ $$aDK297289$$bDK$$cA$$d19891218
000130754 013__ $$aNO892404$$bNO$$cA$$d19891218
000130754 02470 $$2EPO Family ID$$a22773126
000130754 02470 $$2EPO Family ID$$a22773116
000130754 02470 $$2EPO Family ID$$a26902894
000130754 037__ $$aPATENT
000130754 245__ $$aSolid Composite Material Particularly with Ceramic Dispersates
000130754 260__ $$c1989
000130754 269__ $$a1989
000130754 336__ $$aPatents
000130754 520__ $$aComposites of materials in which the matrix material does not spontaneously or readily wet the disperse phase and in which the volume fraction of the disperse phase is less than that formed in a packed bed of dispersate particles can be made effectively by an indirect method of infiltrating a packed bed of dispersate particles, using pressure or other mechanical force as needed to overcome poor wetting and form an intermediate concentrated composite. The concentrated composite is then mixed with additional matrix-forming material to produce the finally desired composite. The technique is particularly valuable for composites with ceramic dispersates and metal or alloy matrixes.
000130754 700__ $$aKnapp, C.K.
000130754 700__ $$aCornie, J.A.
000130754 700__ $$aFlemings, M.C.
000130754 700__ $$aGorsuch, D.R.
000130754 700__ $$aKlier, E.
000130754 700__ $$0240159$$aMortensen, A.$$g112836
000130754 909C0 $$0252046$$pLMM$$xU10336
000130754 909CO $$ooai:infoscience.tind.io:130754$$pSTI
000130754 937__ $$aLMM-PATENT-1989-001
000130754 973__ $$aEPFL$$sPUBLISHED
000130754 980__ $$aPATENT