On the analytic description of normal grain growth

It is shown that, if uniform grain boundary energy is the only factor affecting boundary motion, an abnormally large grain in a matrix of normal grains does not grow at a higher relative rate than its neighbors. R&WII&NOUS montrons que si 1'8volution de la structure granulaire ne depend que de l'tn

The effect of Zener drag on the grain growth process has been studied within the framework of the Wagner-Zlyosov-Hillert model. We find. as expected, that stagnation takes place, and we have studied how the limiting radius varies with Zener drag. We also demonstrate that previous models for the kine

Using the Hellman and Hillert model for the shape of a deformed boundary, the Zener drag originated by a spherical particle is analyzed. An expression for the pinning stress is obtained and it is compared with the original finding of Zener and with some recent results from the literature. Rbnm&-Nous

## Abstract This work is part of a general effort to demonstrate the effect of the bulk microstructure of titanium as a model bone implant material on viability of osteoblasts (bone‐forming cells). The objective of this work was to study the proliferation of preosteoblastic MC3T3‐E1 cells extracted

A function containing four parameters allowing close approximation of experimental stress-strain relationships is presented. The parameters are easily determined from corresponding conditions at the ends and inside of the total interval of the strain variation from zero strain up to failure strain.

## Abstract In this paper, we unveil and discuss a theoretical misconception in a classical formalism of Gaussian pulse envelope propagation. With simple analytical arguments, we explain the mistake and develop a universal result, valid for short and ultra‐short optical pulses of arbitrary shape. T