Yes! Segrelles way of realizing each panel as a little oil painting is one of a kind in the world of comics. I have always admired the unique look of his style from when I was a kid. However, for me it took the Splitter Collectors Edition, with it´s true to the art print and the very personal making offs at the end of each volume, to truly realize Segrelles genius and to understand how great the series in fact is. For example, in his youth Segrelles underwent apprenticeship in a mechanical engineering company as a technical drawer. This shows in all the machines and their technical details he drew. Check this out, he even painted the tearing of this metal ring in a correct way, based on how metal tears in the real world. You can tell it´s accurate if you compare it with the results of tensile testing done in engineering:
It´s from volume one, page forty/fortyone, depending on the edition. The constriction of the weak spots before breaking is nicely visible in the second picture. Please also appreciate how in the third picture, the puling force results in the broken endings of the ring, being not only pulled apart but also to the outside by the resulting force vectors. Here is the full sequence, with the fourth panel showing the realistic deformation of the ring after breaking and then being pulled apart by the acting force:
Yes! Segrelles way of realizing each panel as a little oil painting is one of a kind in the world of comics. I have always admired the unique look of his style from when I was a kid. However, for me it took the Splitter Collectors Edition, with it´s true to the art print and the very personal making offs at the end of each volume, to truly realize Segrelles genius and to understand how great the series in fact is. For example, in his youth Segrelles underwent apprenticeship in a mechanical engineering company as a technical drawer. This shows in all the machines and their technical details he drew. Check this out, he even painted the tearing of this metal ring in a correct way, based on how metal tears in the real world. You can tell it´s accurate if you compare it with the results of tensile testing done in engineering:
So it stretched according to known tensile physics, then naturally found the weakest point, is it not? Is that actually from one of the albums…? oO
It´s from volume one, page forty/fortyone, depending on the edition. The constriction of the weak spots before breaking is nicely visible in the second picture. Please also appreciate how in the third picture, the puling force results in the broken endings of the ring, being not only pulled apart but also to the outside by the resulting force vectors. Here is the full sequence, with the fourth panel showing the realistic deformation of the ring after breaking and then being pulled apart by the acting force:
It’s… astonishing. oO