The low water content was probably due to the corrosion products and the substantial water loss during preparation.
This may result in direct mineral dissolution or corrosion, creating eminent implications with regard to biogeochemical processes.
We demonstrated this by combining five models created in the course of modelling material corrosion data.
Incompatibilities include: metals between which there is a risk of bimetallic corrosion, such as in mild steel/stainless steel.
The films are formed by sedimentation of radioactive products from cooling fluid during the process of corrosion.
The corrosion cavity into which the embryo developed enlarged as the endosperm layer surrounding the embryo was degraded.
Besides, cooling agent penetrates into the porous layer, dissolves and washes out soluble fractions of corrosion products and replaces them with insoluble compounds.
Increased steel reinforcing to handle transportation and lifting loads: steel reinforcing introduces the probability of corrosion and premature deterioration.