To investigate the mechanism of high elongation of natural rubber attained by the 'racking method', a strip of smoked-sheet was elongated up to 150 times in length, by stretching rapidly at room temperature and forcing to shrink at 75-80 degreesC repeatedly. On X-ray diffraction, a typical fibre pattern with an amorphous ring appeared already at X 10 (stretch ratio = 10). The degree of crystallinity increased to the level of 17-18% at X 20 and turned to decrease after X 60, but the degree of crystallite orientation reached at a high level already at X 10 and did not change significantly and the half-height width of reflection profiles stayed almost at a constant level, while the Young's modulus increased up to ca. 300 MPa at X 100 and then fell rather discontinuously. It was assumed that some fractions of chain segments between entanglements were gradually broken in each step of stretching operation, rather than disentangled and slipped.