Stratasys J750 Digital Anatomy Printer

Unrivaled Accuracy, Realism, and Functionality

The J750 Digital Anatomy Printer brings medical models to life with incredible realism that accurately represents both the appearance and response of human tissue.

The printer comes with 3 new innovative materials – GelMatrix™, TissueMatrix™, and BoneMatrix™ – to achieve the look, feel, and behavior of the real thing.

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Description

The New Standard in
Medical Modeling

Create models with an incredible array of fine details and minute structures that look, feel, and function like actual human tissue, with true haptic feedback. All this in a single print operation with minimal to no finishing steps like painting, sanding or assembly.

 
KEY FEATURES
 

Create Complex, Multi-texture Structures
Three new base materials exclusive to the J750
Digital Anatomy Printer enable over 100 unique digital materials.

Model Fabrication Made Easier
Materials are automatically chosen after an anatomy is chosen. No more guesswork
needed. The degree of each tissue attribute can be adjusted as desired.

Achieve Cost and Efficiency Gains
Maintain a digital inventory and and print models on demand when needed.

Specifications

 
Stratasys J750 Digital Anatomy Printer
MAXIMUM BUILD SIZE
490 x 390 x 200 mm (19.3 x 15.35 x 7.9 in.)
MODEL MATERIAL
Vero™ Family of opaque materials including
neutral shades & vibrant colours VeroVivid™ colors
Agilus30™ flexible material
Transparent VeroClear™
TissueMatrix™
BoneMatrix™
DIGITAL MATERIAL OPTIONS
Over 500,000 colours
Digital ABS and Digital ABS2 in ivory and green
Rubber-like materials in a variety of Shore A values
Ultra-soft rubber-like material with a Shore 00 value
Translucent color tints
User-developed digital materials with GrabCAD Voxel Print™
LAYER THICKNESS
Horizontal build layers down to 14 microns (0.0055 in.)
MACHINE DIMENSIONS
140cm x 126x 110 cm (55.1 x 49.6 x 43.3in)
Machine Cabinet: 670 x 1170 x 640 mm (26.4 x 46.1 x 25.2 in.)
MACHINE WEIGHT
430 Kg (948 lbs)
Machine Cabinet: 152kg
BUILD MODES
 High Speed: up to 3 base resins, 27-micron (0.001in.) resolution
High Quality: up to 6 base resins, 14-micron (0.00055 in.) resolution
High Mix: up to 6 base resins, 27-micron (0.001 in.) resolution
ACCURACY
Typical deviation from STL dimensions, for models printed with rigid materials, based on size: under 100mm: ±100μ; above 100mm: ±200μ or ±0.06% of part length, whichever is greater. Refer to material-specific spec sheets for accuracy estimates.
BUILD RESOLUTION
X-axis: 600 dpi; Y-axis: 600 dpi; Z-axis: 1800 dpi
WORKSTATION COMPATIBILITY
Windows 7 and
Windows 8.1 64 bit
NETWORK CONNECTIVITY
LAN – TCP/IP
POWER REQUIREMENTS
100–120 VAC, 50–60 Hz, 13.5 A , 1 phase
220–240 VAC, 50–60 Hz, 7 A , 1 phase
SUPPORT MATERIALS
SUP705™ (waterjet removable)
SUP706B™ (soluble)
GelMatrix™ (waterjet removable)
REGULATORY COMPLIANCE
CE, FCC, EAC
SPECIAL FACILITY REQUIREMENTS
 (64 F-77 F);
Relative humidity 30-70 % (non-condensing)

Applications

Digital Anatomy
Applications

The printer comes pre-programmed with a series of anatomical applications, developed in partnership with device manufacturers, world-class research institutions, hospitals, and medical personnel.

Cardiac Applications

Create heart models that maintain compliance as well as durability and replicate reality. Anatomically accurate structures enable cutting, suturing, and patching as well as device insertion and deployment, making them invaluable as learning and development tools.

 

Vascular Applications

Mimic reality and enable precision simulation of clinical procedures with vascular applications. Insert guide wires and catheters into vascular models, or deploy valves, grafts and closure devices.

Simulate actual blood flow with an active flow loop. Practice navigating tortuous anatomy with patient-specific models. Replicate calcifications and view them under fluoroscopy.

Use Cases

Digital Anatomy
Use Cases


Software

GrabCAD Print Digital Anatomy Software

The software was specifically designed for medical applications. With preset anatomical settings and the unique ability to accommodate digital materials, lifelife anatomical models production is made much easier. The unique voxel-based engine automatically generates your model’s minute structures, enhancing both visual and tactile realism.