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2015 Bucharest, Romania
The National Institute of Research and Development in Mechatronics and Measurement Technique (INCDMTM)
SERVICES OFFERED by
The Research Center for Laser Measuring Technology – CERTIM
from
I N C D M T M ‐ Bucharest
NATIONAL AUTHORITY FOR SCIENTIFIC
RESEARCH AND INNOVATION
2015 Bucharest, Romania
CERTIM Objectives
Overall objective. CERTIM has the overall objective of contributing to
increasing economic competitiveness through increasing the quality and efficiency of
research – development activity in research institutes and SMEs and to ensure
efficient services for businesses with the most modern equipment, tools, software
and creating new modern research laboratories. CERTIM will support the integration
of research, development and innovation in INCDMTM Bucharest for the intelligent
measurement laser activity based on economic innovative, knowledge, intelligence in
Development Region Bucharest ‐ Ilfov and in the European research area (ERA) .
CERTIM has the following specific objectives:
• increase the capacity for research ‐ development – innovation of INCDMTM
Bucharest through development of CD infrastructure and attracting young and highly
qualified specialists in fields;
• strengthening of knowledge supply of INCDMTMT;
• stimulating technology transfer based on the cooperation of the Institute with
enterprises and SMEs;
• stimulation of innovation demand of enterprises and SMEs;
• supporting training and development of the advanced high‐tech companies.
Destination of the services:
• In industrial laboratories and metrology;
• In technical and technological fabrications;
• In other specialized and related fields.
2015 Bucharest, Romania
CERTIM Presentation
CERTIM is located in the building of The National Institute of Research and Development in
Mechatronics and Measurement Technique (INCDMTM), inside of a 10000 class, Cleanroom. CERTIM has
four operational laboratories:
● NANOMETROLOGY LABORATORY;
● LABORATORY OF COMPLEX MEASUREMENT AND
POSITIONING;
● ULTRARAPID LASER MEASUREMENT LABORATORY;
● ADDITIVE MANUFACTURING AND PROMOTING
LABORATORY.
CERTIM Cleanroom technical features:
Standard: ISO 14644 (USA‐ FS‐209 D) Class 10000 ‐ ISO7 Useful Space: 59 m2 Environmental conditions: ● umidity (%): 45 ± 10; ● relative pressure, Pa: 25 ± 5, between Clean Room and exterior; ● temperature, °C: 20 ± 1 0C ● speed of air circulation; according to standard clean room class, but not less than 0,25 m/s. ● noise level: ‐ 42dB ± 3dB. ● lighting: clean room standard light boxes (500 W) ● emergency lighting for escape with autonomous system (one hour).
2015 Bucharest, Romania
● access to CERTIM Cleanroom (class 10,000) is restricted to persons responsible for carrying out related
research and is performed using retina sensor equipment or securised card and is made according to
European standards as having both access ramp and elevator.
Secure access control system through facial recognition, secure access card, access code.
Access ramp at the entrance of the INCDMTM Institute
Elevator transporting personnel and equipment for Cleanroom location.
2015 Bucharest, Romania
● central air treatment in Cleanroom ‐ CERTIM parameters are constantly evaluated through a powerfull
real‐time monitoring system. Operator GUI provides real‐time monitoring and evaluation of Cleanroom
conditions, while ensuring fast access to any desired parameter change.
● Cleanroom access is controlled and monitored. Cleanroom access is using custom input card,
personalized access code or retina recognition.
The Graphical interface of the Cleanroom monitoring system
CERTIM access permitted only with clothing
and footwear appropriate to the conditions
required by current standards, minimizing
contamination of samples and equipment.
Card access for CERTIM Cleanroom
2015 Bucharest, Romania
CERTIM include:
1. NANOMETROLOGY LABORATORY
2. ULTRARAPID LASER MEASUREMENT LABORATORY
3. LABORATORY OF COMPLEX MEASUREMENT AND POSITIONING
4. ADDITIVE MANUFACTURING AND PROMOTING
LABORATORY.
2015 Bucharest, Romania
1 Nanometrology laboratory
(1.1) Atomic force microscope ‐ A.P.E.Research A100
Description
Atomic force microscopy (AFM) A100 is a high‐resolution
instrument, able to image a surface with molecular precision using
mechanical probing of the surfaces contour. It is equipped with a
piezo XY positioning nanometric system "flexure" type, with
integrated capacitive sensors ‐ characterized by extremely rigid and
frictionless nano positioning . Capacitive sensors are integrated,
allowing measurement position directly and without physical
contact. AFM contains STM module that enables analyzes as:
topography, current tunneling spectroscopy as well as performing
STS (I‐V, surface ‐ V, I ‐ Surface) allows obtaining atomic resolution
images including low‐conductive samples. A100 supports all STM
scanning techniques. It has an optical observation system with
magnificaton power increased up to 1,000 X. Microscope is
soundproofed and protected against any other vibrations.
Technical specifications Domain X‐Y: 100 x 100 µm (in high voltage mode) closed loop; 8 x 8 µm (in low voltage mode) Noise: <‐ 0,2 nm Resolution in high voltage mode: ‐ closed loop: < 0,4 nm ‐ open loop: < 0,2 nm
Closed loop linearity: 0,02 % Domeniul Z: 10 µm (high voltage mode)
1 µm (low voltage mode) Rezolution high voltage mode: 0,1 nm Rezolution low voltage mode: 0,01 nm Video monitoring system allows optical zoom >750x on a 23’’ LCD Display Digital Zoom: 100x
Services Using atomic force microscope (AFM) we offer, measurements at the nanoscale dimensions, analysis of surfaces, quantifycaton of intra‐molecular interactions and nano technological operations. A100 AFM is a dedicated microscope for a wide range of nanoscale analysis in air, liquid or
controlled atmosphere environment. It can be used successfully in various morphological research and
various mechanical, electrical or magnetic samples such as polymers, policompositions, nanodots
nanomaterials, nanofibers and nanotubes, nanostructures, thin films, biomaterials and membranes etc.
2015 Bucharest, Romania
(12) Laser measuring system for the surface microgeometry ‐ KLA TENCOR MICRO XAM 100
Description
KLA TENCOR‐MICRO XAM‐100 it is a laser measuring system for microgeometry areas, ideal for measuring surface roughness and topography without contact with high precision and speed. The systems have the ability to analyze a suite of 2D and 3D images and automatically provides data analyzed protocol. The system has an optical system including viewing and projection measurements having smart lighting that can be activated sequentially or independently in light fringes of up to 360 angles of incidence that can be controlled. The system is insulated against vibrations with an active system Thorlabs Nexux.
Technical specifications Axis resolution: 0,5 µm The positioning axes precision: 1 µm Vertical measurement resolution (Z): 0,1 nm Lateral resolution (X,Y): 0,5 µm RMS repeatability (PSI mode): 0,01 nm
Services
We offer services in applications such as: ‐ Determination of surfaces height, with high precision ‐ Determine the topography of machined surfaces ‐ Determining the shape and dimensions of various micro‐ and nano‐components ‐ Bio‐medical applications The examinations may include: medical devices, MEMS / NEMS, solar cells, microelectronic components, optical components, parts and tools etc.
2015 Bucharest, Romania
(1.3) Automatic control equipment for nanotechnology production line
Description
The equipment
automatically control the flow of nanotechnological production and is equipped with optoelectronic measurement systems (laser and atomic force microscopy). It can control and automatically sort the samples tested, speeding up work on the production lines of about 60 times over traditional methods with human operator. The equipment comprises mechanical sub‐assemblies, optics and optoelectronic subassemblies, algorithms and data acquisition measurement systems (real‐time) data processing and presentation of measurement protocol. Mechanical subassembly
comprises a system for controlled, a guidance system and fixing microsensors and disposal systems transducers and vibration insulation for low and high amplitude. Of particular importance in the construction of mechanical part is choosing materials, so it can eliminate the noise vibrations that may occur in the production process. The equipment is patented by INCDMTM.
Technical specifications
AFM Resolution: 0,2 nm Laser measurement resolution: 1 nm Optoelectrical measurement resolution: 10 nm
Services Nanotechnology measurement equipment is designed to calibrate nanotechnology devices. The system is designed to be used both in the production of nanodevices and nanosensors organized as accurate transducers. The system is equipped with two robots, travel systems and laser measuring systems, precision opto ‐ electronic and atomic force microscope. We offer services for calibration of equipment and systems used in the production of nanotechnology.
2015 Bucharest, Romania
2 Ultrarapid laser measurement laboratory
(2.1) Laser telemetry measuring system ‐ ASTECH LDM 301
Description
The long lengths measuring
system using laser telemetry, is based
on TOF (Time Of Flight), measuring the
road of a laser beam reflected from the
target measure. The system is able to
measure in real time, lengths between
0.5m and 3000m. LDM 301 Ashtech
has also the possibility to measure, in
real time, the speed of the target. The
two measurements can be done
synchronously or separately. Up to
distances of 450m is not necessary a
reflective target. For distances up to 1
Km it can use reflective targets, and for
longer distances are required
reflective prisms. The device has filters
against disturbing elements such as
bright sun, wind, dust, rain, fog, so it
can be used outside, inside the
production halls and special
laboratories.
Technical specifications Measuring distance: 0,5…3000 mm Resolution: 1 mm Accuracy: ± 20 mm Time measurement for speed: 0,5 ms
Services LASER telemetry measurement system enables high‐speed measurement measuring ranges from 0.5m ‐ 3000m. We can provide periodic verification of measuring lasers in the 0.5 m‐3000 m domanin.
2015 Bucharest, Romania
(2.2) Measurement system with noncontact laser scanning ‐ AEROEL
Description
The measurement system can
measure very fast and precise. It contains
the following parts: the measurement
head, the interface and data processing
system and the display. The system can
operate stand alone, connected to a
computer or integrated into a wider
process of measuring.
With this equipment it can be measured
diameters up to 80 mm with a very high
accuracy and very high speed. The system
is portable and allows very quick and easy
positioning in any location where
performance measurements are needed.
Technical specifications
Measuring range: 0,75 mm ‐ 80 mm
Resolution (selective): 10/1/0,1/0,01 (µm)
Linearity: ±2 µm
Repeatability (T=1, ±2σ): ±0,2
Scanning frequency: 1500 Hz
scanning speed: 588 m/s
Laser source: VLD (Visible Laser Diode); ʎ=650 nm
Services
AEROEL is a high‐precision equipment that can measure a wide range of surfaces of parts having different shapes and sizes and can provide services in: ‐ Diameters measuring ‐ Measurement of exterior front axles ‐ Continuous automatic or sequential measurement ‐ Statistical determinations min, max in semi drawn, drawn, forged or cast, with active control of the workflow.
2015 Bucharest, Romania
(2.3) Laser measuring system for the relative position of surfaces ‐
REHISHAW XL‐80
Description
XL ‐ 80 is fast, easy to set up and use. This reduces waiting time and increase available measurement time, whilst retaining the accuracy benefits of a system based on interferometry. Designed as a portable system, the interferometer XL‐80 can measure with high precision any movement in space, which makes it ideal for checking displacement machines in 3D. Being completely disassembled and reconfigurable, it contains all the necessary elements of any measure up to a distance of 80m. Extremely helpful and extremely portable can be moved to any location and can be assembled and configured in about
15‐ 20 minutes.
Technical specifications The linear distance measurement: 80 m Measurement accuracy: ± 0,5 ppm Axial angular distance: 0 m ‐ 15 m Straightness resolution: 1 nm Angular accuracy: ± 0,2% ± 0,5 ± 0,1M µm/m Top speed: 4m/s Angular distance measuring: ± 100
Services
With the Laser measuring system for the relative position of surfaces we can provide services in: ‐ Surface flatness calibration. ‐ Calibration of machine tools and CNC machines ‐ Calibrate CMM machines ‐ Control deviation from linear travel of machines or surface flatness deviation of the control tables.
2015 Bucharest, Romania
(2.4) Noncontact probing laser systems ‐ KEYENCE LJ‐G015
Description
Noncontact probing laser systems can be
used on one axis or two axis and are able to
measure dimensional in one or two directions. It
is used as standalone devices or integrated into
large equipments for measurement and control.
The sensor for measuring the profile is using a
short‐range laser contour and form
measurement dedicated for industrial
applications. These lasers can generate fast,
accurate scanning of 2D profile of the objects,
surfaces or profiles, using digital CMOS
detectors and a laser beam ȋn previously
programmed. Individual profiles can be
combined to generate a 3D point cloud
corresponding to the contour of the object.
Technical specifications Measuring range: ‐ axis Z ‐> 15 ± 2,6 mm
‐ axa X ‐> 7 mm
Repeatability: ‐ axis Z (înălțime): 0,2 µm
‐ axis X (lățime): 2,5 µm
Reference distance: 15 mm
The diameter on the reference surface: Aprox. 32 µm x 12 mm
Measurement frequency: 3,8 ms
Services
With this measurement system can provide a full range of services such as: ‐ Height measurement at several points within a specified range; ‐ Measuring width / gap with a specified measurement mode; ‐ Measurement profiles / sections of the parts; ‐ Automatic calculation of angles / intersections
2015 Bucharest, Romania
(2.5) 3D automatic laser calibration system – ETALON Laser Tracer
Description
Automatic calibration system
3D Laser is a utramodern system
(unique in our country) that combines
the accuracy of a laser interferometer
with the versatility of a laser tracer. The
system can automatically track a
reflective target (in real time)
performing precise measurements of
distances on all X, Z and Y axes of the
CMM machines or other equipments
that perform extremely precise
movements in Cartesian coordinates.
Compared to conventional high
precision interferometers, Etalon Laser
Tracer run the same set of
measurements in a perod of time, ten
times smaller. The system is portable
and can be transported "on site"
without problems, providing interactive
sensor compensatons for
environmental variations (temperature,
humidity, pressure). Installation and
adjustment of the equipment is made in
about 30 minutes (of which only about
20 minutes are required to prepare and
stabilize the laser beam) then it can immediately proceed to the measurements. Target probe
reflector mounts inthe place of the probe, without needing other interventions such as removing
head stylus port or other disassemblies that would result in damaging the machine calibration.
Technical specifications Axis elevation angle range: ‐ 30 ° to + 60 °
Axis Azimuth angle range: ± 200 °
Measuring range: 0.2 m to 15 m
Resolution: 0.001 μm (1 nm)
Spatial measurement accuracy: U (k = 2) = 0.2 μm + 0.3 μm / m
Services
Calibrated measuring system Etalon Laser Tracer can provide services in: ‐ Calibration of machine tools and CNC ‐ s ‐ Calibrate MMC ‐ s ‐ Control of the deviation displacements from the linear shape
2015 Bucharest, Romania
3 Laboratory of complex measurement and positioning:
(3.1) Digital scanner 3D ‐ CREAFORM
Description
3D laser scanner is the perfect
inspection product for analyzing and
reporting geometric dimensions and
tolerances. Stl format files generated
directly, can easily be imported and
processed in a processing CAD
program.
The equipment can scan and measure
objects of various sizes in various
environments, generating inspection
reports or reports the errors
highlighted in the execution of the
piece measured. Scanning is done
without contact and does not harm
the surface of the measured piece.
It can be done the inspection and
correspondence with the CAD model, evaluation of 3D models relative to original parts or tools
of production and conformity assessment of the parts in the original correspondence.
Technical specifications
Laser class: 2 (Eye‐safe) Resolution on axis X,Y,Z: 0,05 mm Number of measurements per second: 25.000 Operating distance: 300 mm Software: Vxelements Scanning field width: 300 mm
Services
With this equipment we provide services for the reconstruction of surfaces, surface
modeling, digitizing of the existing models, mechanical design.
Data acquisition forms which materialize any accomplices, damage assessment, medical
applications, digital models, models.
2015 Bucharest, Romania
(3.2) 6‐axis positioning microsystem ‐ PI HEXAPOD
Description
6‐axis positioning microsystem is a high precision movement and positioning (1‐5 nm) equipment, with the ability to perform a series of controlled cycle movements easily programmed in specialised software.
Micro positioning upper platform has a clamping system (screw mount) or a secondary table for intermediate support. Lower platform can be fixed by bolts, ensuring the possibility of installing this equipment in any position or angle desired in relation to the measurment algorithm used.
Technical specifications Actuator resolution: 40 nm Repeatability X,Y: ± 0,3 µm Repeatability Z: ± 0,1 µm Maximum speed X,Y,Z: 10 mm/s Rigidity X,Y: 0,2 N/µm Rigidity: 3,6 N/µm Maximum weight (baseplate horizontal / any orientation): 5 / 2,5 kg
Services
6‐axis positioning Microsystems can offer services for fast and accurate positioning and orientation in the following areas: ‐ Micro and nano measurements ‐ Positioning and alignment MEMS research activity ‐ Research and testing optical devices ‐ Micromanipulation for research in the fields of nanomaterials and nanodevices micro electronic circuits, micro optics and micro photonics, centimetric and millimetric waves, nanostructured materials and ultra‐precise calibration of sensors.
2015 Bucharest, Romania
(3.3) Arm laser sensor ‐ FARO EDGE
Description
Arm laser sensor measuring system has a high
degree of maneuverability and easy access to measure all
elements of single parts or complex assemblies. It features
dual measurement system based on both analog probes
and the noncontact laser probes. The two systems coexist
during the measurement and are perfectly functional,
providing the operator with a wide range of measures,
probing and scanning combined.
The non contact laser can scan very quickly "point
cloud" meshes that can be saved in stl file format,
compatible with any CAD or 3D reconstruction Software.
The analog probing system having high precision can be
quickly used for measuments including geometry in
conjunction with the laser scan, improving the speed and
the accuracy of the operation.
Faro Edge has a dual connection with a PC / laptop
USB serial interface or through WiFi, able to connect with
the designer CAD software to use the virtual information in
accord with the physical corresponding manufactured
parts.
Technical specifications ‐ Field admitted volumetric measurement: 2700 mm ‐ The number of degrees of freedom of the arm: 7 ‐ Repeatability: 0,029 mm ‐ Volumetric accuracy: ‐ analog ± 0,041 mm ‐ laser scanner: ± 0,076 mm
Services
The FaroArm can offer services in the aerospace, automotive, metal fabrication, dimensional analysis and quality control in various applications. We provide measurement and scanning any part regardless of their complexity.
2015 Bucharest, Romania
(3.4) Measuring system for micro and nano Positioning ‐ TRIMOS TWINNER 4M
Description Twinner 4M is a multi‐functional device for measuring rotational parts (symmetrical) for controlling the shape and position of surfaces. The pieces can be quickly mounted on the equipment (few seconds) and inspection can begin immediately. The system has both analog probes and optical measurement system. For mass produced parts, Twinner 4M semiautomatic measuring programs can generate end‐line controll, executing fast complex measurements that handled by a single human operator. The system is equipped with a PC type computer system and can import 3D CAD drawings to be used as a model for measured parts
Technical specifications Measuring distance: ‐ axa X ‐> 400 mm ‐ axa Y ‐>125 mm Axis resolution (X and Y): 0,0001 mm sau 0,001 mm (selectable) The maximum error (µm) axis X: 3 + L (mm)/100 (7 µm at 400 mm) The maximum error (µm) axis Y: 1,5 + D (mm)/100 (2,75 µm at 125 mm) Measurement force (lengths and diameters): 2N
Services With Twinner 4M we offer system measurement services for cylindrical parts as: ‐ Exterior lengths; ‐ Outer diameters; ‐ Deviations of form and position (concentric oval, the radial, axial deviation, position) ‐ Cog wheels; ‐ Conical surfaces; ‐ Camshafts; ‐ Points of intersection; ‐ Step Angle; ‐ Outer radius.
2015 Bucharest, Romania
(3.5) Intelligent mini robot for measuring ‐ NIKON iNEXIV
Description
Intelligent mini robot for
measuring is a continuous measurement equipment, non‐contact laser probing system that detects complicated surfaces for 3D parts, where video capability can not be used. A piece measuring program can include both video‐laser measurements as well as measurement by palpation in order to achieve precision measurements with the highest possible degree.
It can be used for reconstruction of the object surfaces through points or replicaton using reverse energing methods. Due to the possibility of non‐contact measurement it can be use for deformable surfaces such as medical research, the measurement of human body parts (dental, orthopedic, aesthetic surgery and implantology, oncology, etc.).
High productivity is achieved by using speeds up to 80 measurements / sec.
Technical specifications Working space (X x Y x Z): 250 x 200 x 200 mm
Resolution: 0.1 µm Maximum permissible error : XY MPEE2: 2+8L/100 µmm Accuracy: XY MPEE2: 3 + 8L/100 µm Z MPEE1: 3 + 1/50 µm Repetability (2σ): Optical 1 µm Laser AF: 1 µm Working height: 73,5 mm
Services Complete services in research, measurement, deformable or non‐deformable surface reconstruction in industry and medicine.
2015 Bucharest, Romania
(3.6) Cylindrical profile measuring system ‐ RONDCOM Nex
Description Rondcom is an ultra‐precise measurement equipment for profiles. This system can be used anywhere it takes to get information about geometry with high tolerance parts. All this information is monitored in real time. Rondcom is a tool to measure very accurately the deviations of form and surface roughness. The system accepts configuration and / or generation of automatic measurement procedures per piece measured, which can be launched automatically so it determines in the shortest time possible the accuracy of the measured executed product.
Technical specifications
The system records the profile deviations of form and position, with palpable contact and non‐contact in manual and automatic mode having the following characteristics: Roundness deviation measurement accuracy: 0,02 + 0,00032*H µm Axial beating measurement accuracy: 0,02 + 0,000032*R µm The diameter of the rotating table: 235 mm Deviation from linearity measurement accuracy throughout the axis Z: 0,23 µm Maximum load of the totating table: 300 N Axis length Z: 500 mm Axis length X: 180 mm
Linearity deviation accuracy throughout the axis X: 0,7 µm Features for non‐contact stylus: Rate: 32 ‐ 2000 Hz Measuring range: 300 µm Resolution: 10 nm
Services Cylindrical profile measuring system can provide measurements of form deviations,
measuring roundness deviation, deviation from linearity parts, beating axial deviation from flatness, surface roughness, straightness deviation from the generating line of cylindrical parts, etc.
2015 Bucharest, Romania
(3.7) Coordinate Measuring Machine (CMM) ‐ NIKON ALTERA 7.5.5
Description
ALTERA 7.5.5 is a multi‐sensor CMM that offers the best combination of productivity and flexibility. It comes with the option of probing / scanning using Renishaw indexed head cappable to support analogic probes as well as the newest and most precise laser scanner in the world. Upper guide is made of ceramic material of the highest quality with almost perfect stiffness‐to‐weight ratio and greater resistance to changes in temperature, providing consistent performance in all environments. ALTERA uses a multi‐sensor technology and offers the possibility of
extending its scope to new materials and components. The laser head is the newest generation, comparable with analog levers.
Technical specifications Resolution: 0.05µm MPEp (maximum permissible error of length measurement): 1,6 µm MPEE (maximum permissible error on palpation): ‐1,8 + L/400 ‐ ANALOG ‐1,9 µm ‐ LASER Travel on axsis: ‐ X: 711 mm ‐ Y: 508 mm ‐ Z: 508 mm The maximum weight of the piece that can be measured is 256 kg.
Services
With ALTERA 7.5.5, we can provide service in areas of application such as: ‐ Dimensional control of parts and subassemblies; ‐ Formal verification of machined parts; ‐ Measurement of injection molded metal parts; ‐ Measurement of the plastic pieces obtained by injection; ‐ Measurement of parts depreciation;
2015 Bucharest, Romania
4 Additive manufacturing and promoting laboratory
(4.1) 3D plastic printer – STRATASYS OBJET3D Pro
Description
One of the best 3D plastic printer
models that can reproduce complex parts,
the only constraint being the maximum
dimension working space (294 X 192 X 148
mm). Compatible with standard format Stl,
the parts to be printed can be imported
from any CAD environment. It is suitable
for any 3D model including experimental
ones, replacing interim molds whose costs
are very high. The printer is specifically
indicated in small series and especially for
parts having highly complex internal /
external geometry. The printer can
generate including parts enclosed in an
enclosure or multiple enclosures into one
another. But in this situation it must be
taken into account, in the design phase, the
design of evacuation channels for the support material that must be cleaned after printing.
Technical specifications
Working space: 294 x 192 x 148,6 mm Thick opaque layer: 28 µm Thick transparent layer: 16 µm Tolerance: 0,1 mm The smallest wall thickness obtained: 0,6 mm The smallest possible diameter of holes: 1 mm Possible materials to be used: VeroWhite Plus, VeroBlue, VeroBlack, VeroGray, DurusWhite, VeroClear, Transparent, RGD525 High Temperature.
Services With the 3D printer can provide printing services for parts and assemblies with high
precision and high complexity. They become functional immediately after the printing/washing process. This allow you to test form, fit and function parts no matter how many iterations of the design is needed. 3D printer produces durable and functional prototypes that can withstand rigorous testing, plastic models that can be drilled, sanded, painted and even chrome.
2015 Bucharest, Romania
(4.2) Dissemination LCD Display (diagonal 1.5 meters) ‐ LG 60013D
Description
Dissemination LCD Display (1,5 m) has all standard input output audio / video connectors for interface it with any other adequate equipment. It includes the computer smart technologies. It can be coupled with any device type PC / laptop and can play in Super HD. It has ability to play back 3D images or to convert 2D images in 3D in image for better interfacing with the viewer. It can be connected to any of the equipment center established to disseminate in real
time the work in progress of any measurement equipment couplet to it. The audio system includes stereo speakers built in, using signals either via a PC or via a microphone for audio explanation of information, where appropriate.
Technical specifications Resolution: 3840 x 2160 (pixeli) Image aspect: 16:9 All 3D function Conversion from 2D to 3D screen Size: 60’’ (1,5m) Smart remote, gesture control Possibility of remote control via Ethernet.
Services With LCD display offers the following services: ‐ Audio‐video diseminations. ‐ Presentation of the CERTIM activity center, in real time ‐ Presentation of information taken from equipments (both the CERTIM center and the others existing INCDMTM) for viewing measurement processes in real time, to disseminate or training and schooling.
2015 Bucharest, Romania
(4.2) Plotter for promotion actions‐ EPSON
Description
It is a plotter for interior
and exterior that can produce posters, watermarks, banners, backlit panels and materials for points of sale, car covers, interiors and images for exhibitions. Compatible with a wide range of media rolls, users can list reliably and economically on vinyl, canvas, clear film, photographic paper and a range of substrates common banner with a width of up to 64 "(162.6 cm). The vibrant and natural colors are weatherproof while the high solar radiation and heat‐ variations don’t affect the quality of the print for at least 3 years without lamination.
Technical specifications ‐ Maximum resolution 1440 x 1440 dpi ‐ Printing speed: 29 m2/h ‐ Material formats: 64” (162,6 cm) ‐ Appropriate paper thickness: 0,1 mm – 1 mm ‐ Number of colors cartridges ecosolvent: 4 colors (black, cyan, magenta, yellow) ‐ Print Media: Paper, vinyl, mesh, photographic paper, fabric, double sided printable banner, roll‐up, pop‐up
Services
We provide the execution of banners, posters, roll‐ups, in any material of any length (maximum width is 160 cm). Waterproof, weatherproof, solar exposure proof.
2015 Bucharest, Romania
The services provided by CERTIM INCDMTM ‐ Bucharest are as follows: 1. Choosing the appropriate service; 2. Transmission of the demand for service; 3. Transmission Service Order; 4. Analysis of the formal submission of the order and the conditions for the
service, including financial conditions and deadlines; 5. Official commun reception of the service; 6. Sending service/service results/product to the beneficiary.
Contact person: Dr. Ing. Popan Gheorghe, e‐mail: [email protected] Adress: Sos. Pantelimon nr 6 – 8, sector 2, 021631, Bucharest, ROMANIA Telephone: +4021.252.30.68/69; Fax: +4021.252.34.37 E‐mail: [email protected] Web: http://incdmtm.ro/index_en.php