title:

AGRIEBORZ

GNI_D_GH_451_OKT2009

year:

2009-2010

medium:

print

dimensions:

817 x 730 cm (variable sizes)

321.7 x 287.4 inches (variable sizes)

title:

AGRIEBORZ

GNI_D_GH_451_OKT2009

year:

2009-2010

medium:

lightbox

dimensions:

200 x 150 x 17 cm

78.7 x 59.1 x 6.7 inches

title:

AGRIEBORZ

GNI_D_GH_451_OKT2009

year:

2009-2010

medium:

print mounted on pvc

dimensions:

51 x 36 cm, framed 69 x 54 cm

20.1 x 14.2 inches, framed 27.2 x 21.3 inches

title:

AGRIEBORZ

year:

2009-2010

medium:

SLS 3D print

dimensions:

53 x 34 x 33 cm

20.9 x 13.4 x 13 inches

keywords:

3D printing
anatomy
biomimetics
bioprinting
computational design
medicine
Prof. Pierre Delaere

synopsis:

For AGRIEBORZ, Nick Ervinck used imagery of human organs that he found in medical manuals as construction materials to create an organic form, a larynx (or voice box) 'gone wild'. Though imaginary, AGRIEBORZ seems to retain some familiarity due to its visual connection to human organs, muscles, nerves, etc. Any coherent organization or structure, however, is lacking. The image becomes ungraspable, hovering in a virtual, potential or science-fictional world. AGRIEBORZ was first shown as a part of the show 'Parallellepipida – between art & science' in Museum M, Leuven (B) on a scale of 7 x 8 meters. Although 2D, it has sculptural qualities through its monumental size that incorporates the architecture it is shown in. After that, Ervinck realised AGRIEBORZ as a 3D print.

AGRIEBORZ was largely inspired by the conversations Nick Ervinck had with two professors at KU Leuven: Pierre Delaere, a professor researching the larynx, and Koen van Laere, whose research is situated in neurology and nuclear medicine. This cross-fertilization inspired the image of a perfectly symmetrical cyborg figure. A sculpture like AGRIEBORZ not only points to the growing tendency of integrating technology in the human body, it also plays with the intriguing possibility to use living tissue as technological material. Today we are capable of creating replicas of human bones on the basis of 3D-models from CAT-scans. Bio printing, a new technology used to print organs, will be further developed and commercialized. Working in a close parallel to science, Ervinck is able to develop new realities that can in turn inspire scientists.

collaboration:

Prof. Pierre Delaere, Museum M Leuven, Materialise

<< overview
<< titles