Lithium aluminium hydride reduction of a cyclic anhydride to a δ-lactone

Unsubstituted medium-ring 1,2-epoxycycloalkanes and certain vie-epoxyalkanes are reduced to the corresponding alcohols very slowly when LiAIH, alone is used as reducing agent. However, the combination of LiA1H4 and AICI,, in a 2:l molar ratio (with respect to 1 mol-equiv. of epoxide) used in refluxi

We have recently reported that lithium aluminlum hydride (LAH), contrary to expectations of long standlng, can bring about reductive dehalogenatlon of a wide variety of so-called Inert organic halldes in high yields (>8O%)l. In par-

The selective reduction of 3,4-dicarbomethoxyquinoline by lithium aluminium hydride at low temperature affords only the unexpected 3-formyl 4-carbomethoxy quinoline. The difficulty of reduction of the usually more reactive 4-ester group can be explained by a steric hindrance by the H5 peri proton on

Plane shear tests without lateral force are obtained with the help of a very rigid shear device, attached to a classical testing machine. To avoid shear strain heterogeneity, essentially in the lateral direction, the shear strain is measured locally. The comparison with tensile test results indicate