Steel Fab 2009 19-22 January 2009
Expo Centre Sharjah, United Arab EmiratesSteelFab: Middle East's most established sourcing platform for the metal-working, metal manufacturing and steel fabrication industrySteelFab is the Middle East's largest trade show for the metal working, metal manufacturing & steel fabrication industries. The event made its debut in 2004 and since then has grown considerably in terms of number of exhibitors, occupied exhibition space, as well as exhibit profile.For More Information Please visit http://www.steelfabme.com
Or email int.sales@hydrocut.gr
Sunday, December 28, 2008
Wednesday, December 24, 2008
Monday, December 22, 2008
Κόψτε τα έξοδα με Yδροκοπη
Κοπή με μηχανές υδροκοπης VEGA της HYDROCUT (INTELICUT)
Χρησιμοποιώντας μηχανήματα ακριβείας και ένα υψηλό επίπεδου επιστήμονες, η Hellenic Hydrocut (στο εξωτερικό γνωστή και ως INTELICUT ) κατασκευάζει προηγμένα προϊόντα κοπής με υδροβολή υψηλής τεχνολογίας απο το 1999.
Η Hyrocut (INTELICUT) κατασκευάζει μηχανήματα υδροκοπης με δυνατότητα κοπής σχεδόν οποιουδήποτε υλικού. Το Waterjet με αντλίες της σειράς stream line της KMT παράγουν πιέσεις κοπής έως 4.100 bar και ταχύτητες mach 2,5.
Εταιρείες χρησιμοποιούν τα συστήματα κοπής με υδροβολή τύπου VEGA με εξαιρετική αποτελεσματικότητα εδώ και πάνω από 10 χρόνια. Η ευελιξία και αξιοπιστία της VEGA διευκολύνει τη χρήση και σε καταστάσεις παραγωγής υψηλού εύρους και σε μικρές παραγγελίες, δημιουργικές εφαρμογές χαμηλού εύρους.
Στην ουσία, καινοτόμες εταιρείες συνεχίζουν να βρίσκουν νέες εφαρμογές για τη βελτίωση της παραγωγής τους και επιτυγχάνουν ένα υψηλότερο επίπεδο αποτελεσματικότητας και ανταγωνιστικότητας.
Έως σήμερα, η υγιεινή, ανάπτυξη και επιβίωση των περισσοτέρων βιομηχανικών κατασκευαστών, επιχειρήσεων εργασίας και μηχανών στην κατεργασία υλικών, επιχειρήσεων διαμόρφωσης και κατασκευής, θέτουν ως προϋπόθεση τις μηχανές υδροβολής.
Στην κοπή με υδροβολή μπορούμε να αναφέρουμε πέντε βασικά στοιχεία τα οποία ξεχωρίζουν - και αυτά είναι τα εξής:
Εξοικονόμηση
Πολλαπλή χρήση/ ευελιξία
Ακρίβεια κοπή και άριστη επιφάνια και σε τελική μορφή
Δυνατότητα κοπής σχεδόν οποιουδήποτε υλικού σε μια ποικιλία πάχους από πολύ λεπτά φύλλα μετάλλου έως 240 χιλ. και ακόμα περισσότερο
δυνατότητα ολοκλήρωσης η προεργασία άλλων διαδικασιών όπως κατεργασία κοπής με λέιζερ, κοπή με πλάσμα, και εργασίες με Router και κατεργασίες σε κέντρα CNC.
Περισσότερα στο www.hydrocut.gr η int.sales[at]hydrocut.gr
Χρησιμοποιώντας μηχανήματα ακριβείας και ένα υψηλό επίπεδου επιστήμονες, η Hellenic Hydrocut (στο εξωτερικό γνωστή και ως INTELICUT ) κατασκευάζει προηγμένα προϊόντα κοπής με υδροβολή υψηλής τεχνολογίας απο το 1999.
Η Hyrocut (INTELICUT) κατασκευάζει μηχανήματα υδροκοπης με δυνατότητα κοπής σχεδόν οποιουδήποτε υλικού. Το Waterjet με αντλίες της σειράς stream line της KMT παράγουν πιέσεις κοπής έως 4.100 bar και ταχύτητες mach 2,5.
Εταιρείες χρησιμοποιούν τα συστήματα κοπής με υδροβολή τύπου VEGA με εξαιρετική αποτελεσματικότητα εδώ και πάνω από 10 χρόνια. Η ευελιξία και αξιοπιστία της VEGA διευκολύνει τη χρήση και σε καταστάσεις παραγωγής υψηλού εύρους και σε μικρές παραγγελίες, δημιουργικές εφαρμογές χαμηλού εύρους.
Στην ουσία, καινοτόμες εταιρείες συνεχίζουν να βρίσκουν νέες εφαρμογές για τη βελτίωση της παραγωγής τους και επιτυγχάνουν ένα υψηλότερο επίπεδο αποτελεσματικότητας και ανταγωνιστικότητας.
Έως σήμερα, η υγιεινή, ανάπτυξη και επιβίωση των περισσοτέρων βιομηχανικών κατασκευαστών, επιχειρήσεων εργασίας και μηχανών στην κατεργασία υλικών, επιχειρήσεων διαμόρφωσης και κατασκευής, θέτουν ως προϋπόθεση τις μηχανές υδροβολής.
Στην κοπή με υδροβολή μπορούμε να αναφέρουμε πέντε βασικά στοιχεία τα οποία ξεχωρίζουν - και αυτά είναι τα εξής:
Εξοικονόμηση
Πολλαπλή χρήση/ ευελιξία
Ακρίβεια κοπή και άριστη επιφάνια και σε τελική μορφή
Δυνατότητα κοπής σχεδόν οποιουδήποτε υλικού σε μια ποικιλία πάχους από πολύ λεπτά φύλλα μετάλλου έως 240 χιλ. και ακόμα περισσότερο
δυνατότητα ολοκλήρωσης η προεργασία άλλων διαδικασιών όπως κατεργασία κοπής με λέιζερ, κοπή με πλάσμα, και εργασίες με Router και κατεργασίες σε κέντρα CNC.
Περισσότερα στο www.hydrocut.gr η int.sales[at]hydrocut.gr
Tuesday, December 16, 2008
Monday, December 15, 2008
Waterjet cutting creates new opportunities for designers
Waterjet cutting creates new opportunities for designers
Good product design is as much about understanding the capabilities of the manufacturing processes as it is about fulfilling the product's functional requirements. Designers therefore need to appreciate how processes are evolving, and one that is developing fast is waterjet cutting and the related process of abrasive waterjet cutting.
From the early 1970s, when waterjet cutting was first used commercially on paper-based materials and honeycomb materials for the aerospace industry, development progressed rapidly until the 1980s, when abrasive cutting was commercialized. Modern waterjet and abrasive waterjet cutting equipment is robust, reliable and versatile. Typically an ultra-high-pressure intensifier (pump) delivers water at up to 4150 bar (60,000 psi) such that it exits the cutting nozzle at Mach 2-3 (680-1020 m/s). Diamond or sapphire is usually used for the nozzle to maximise the cutting life. Where used, the abrasive material is usually garnet or olivine. While most machines cut two-dimensional (2D) profiles, others use a cutting head mounted on a multi-axis manipulator to enable three-dimensional (3D) shapes with angled sides to be cut from thicker sheet. It is also possible to mount a cutting head on a five- or six-axis robots to enable, for example, complex mouldings to be trimmed.
Waterjet and abrasive waterjet cutting are remarkably versatile. On the one hand they can cut thin paper-like materials or soft materials such as foam, rubber and food products; on the other hand, they can cut very hard and brittle materials, including hardened steel and granite. They can also cut composite materials, meat products, and carpet. Very thin materials can be cut with ease, and abrasive waterjet cutting can be used to cut up to 180 mm of concrete or 400 mm of steel. Clearly the hardness and thickness of the workpiece have an impact on the cutting speed, as does the surface finish required.
Longer life
One of the drawbacks with waterjet and abrasive waterjet cutting used to be the short life available from the nozzle and the seals in the cutting heads and intensifiers. However, developments in these areas have resulted in considerably longer lives. Intensifier seals today can easily last 1700 hours (compared with 40-50 hours for previous generations) and cutting head seals can be expected to last 2000 hours (compared with 60-80 hours). Similarly, developments in abrasive mixing units help to make the cutting process considerably more cost-effective by reducing the maintenance requirements and the costs associated with machine downtime.
Something else that helps to minimise downtime is improved diagnostics. Intensifiers such as the KMT Streamline SL-V 60 offer a touch-screen control with guided maintenance procedures, as well as remote diagnostics via the internet .
Bigger units are often used with multiple cutting heads, thereby helping customers to minimise the investment needed to operate a machine with multiple cutting heads or multiple waterjet or abrasive waterjet cutting machines.
The three-dimensional cutting capabilities of waterjet and abrasive water jet cutting have already been mentioned, but this subject is worth exploring further. Flow International Corporation has a video on its website that illustrates the potential of a five-axis robot, with examples of plates being cut while held at an angle to the machine bed, complex aperture profiles being cut into curved surfaces, a thin-walled truncated cone being cut form thick material and, probably the most impressive, a fan with 15 curved blades. The UK's Nottingham University is another organisation at the forefront of waterjet cutting. As well as working on ways to use a six-axis abrasive waterjet cutting machine to create pockets in aerospace components, the Nottingham researchers have recently developed a way to cut thin double-curvature polycarbonate with pure water.
Another way in which waterjet and abrasive waterjet cutting are starting to move away from the traditional two-dimensional applications is in the forming of blind holes.
It is well known that the two cutting processes are capable of starting a cut away from the edge of the workpiece by first piercing through the material, but some users and researchers are starting to create blind holes by stopping the flow before the hole has penetrated to the far side of the material.
Currently the challenge is to control the shape and depth of the hole, but progress is being made in this area. For product designers, it could be argued that the most significant development in waterjet and abrasive water jet cutting in the last five years relates to improved machine productivity and, therefore, a more cost-effective process. Nevertheless, the use of five- and six-axis robots also creates new opportunities, and the pocketing functions currently being developed are likely to make waterjet and abrasive waterjet cutting even more versatile in the near future.
Interested on advanced waterjet cutting ? Did you know all about Waterjet? Subscribe and stay up to date!
One of the drawbacks with waterjet and abrasive waterjet cutting used to be the short life available from the nozzle and the seals in the cutting heads and intensifiers. However, developments in these areas have resulted in considerably longer lives. Intensifier seals today can easily last 1700 hours (compared with 40-50 hours for previous generations) and cutting head seals can be expected to last 2000 hours (compared with 60-80 hours). Similarly, developments in abrasive mixing units help to make the cutting process considerably more cost-effective by reducing the maintenance requirements and the costs associated with machine downtime.
Something else that helps to minimise downtime is improved diagnostics. Intensifiers such as the KMT Streamline SL-V 60 offer a touch-screen control with guided maintenance procedures, as well as remote diagnostics via the internet .
Bigger units are often used with multiple cutting heads, thereby helping customers to minimise the investment needed to operate a machine with multiple cutting heads or multiple waterjet or abrasive waterjet cutting machines.
The three-dimensional cutting capabilities of waterjet and abrasive water jet cutting have already been mentioned, but this subject is worth exploring further. Flow International Corporation has a video on its website that illustrates the potential of a five-axis robot, with examples of plates being cut while held at an angle to the machine bed, complex aperture profiles being cut into curved surfaces, a thin-walled truncated cone being cut form thick material and, probably the most impressive, a fan with 15 curved blades. The UK's Nottingham University is another organisation at the forefront of waterjet cutting. As well as working on ways to use a six-axis abrasive waterjet cutting machine to create pockets in aerospace components, the Nottingham researchers have recently developed a way to cut thin double-curvature polycarbonate with pure water.
Another way in which waterjet and abrasive waterjet cutting are starting to move away from the traditional two-dimensional applications is in the forming of blind holes.
It is well known that the two cutting processes are capable of starting a cut away from the edge of the workpiece by first piercing through the material, but some users and researchers are starting to create blind holes by stopping the flow before the hole has penetrated to the far side of the material.
Currently the challenge is to control the shape and depth of the hole, but progress is being made in this area. For product designers, it could be argued that the most significant development in waterjet and abrasive water jet cutting in the last five years relates to improved machine productivity and, therefore, a more cost-effective process. Nevertheless, the use of five- and six-axis robots also creates new opportunities, and the pocketing functions currently being developed are likely to make waterjet and abrasive waterjet cutting even more versatile in the near future.
Interested on advanced waterjet cutting ? Did you know all about Waterjet? Subscribe and stay up to date!
Saturday, December 13, 2008
WATERJET IN CONSTRUCTION
A STUDY ON USE OF WATERJET IN CONSTRUCTION
By Amit Bandyopadhyay and Michael GeraghtyBANDYOA@SNYFARVA.CC.FARMINGDALE.EDU Department of Construction Engineering Management TechnologyState University of New YorkFarmingdale, NY 11735
Abstract
Use of abrasive waterjet has been in existence for over twenty years, but it is yet to reach its full potential in the construction industry. This study examines the role of waterjet in heavy construction in general and particularly how it affected the regional contractors in the northeast. A survey was conducted among 215 civil contractors of the Northeast region of the United States and the results are documented in various categories.
Introduction
Waterjets were introduced in the United States during the 1970’s, and were utilized merely for cleaning purposes [1]. As the technology developed to include abrasive waterjets, new applications were disco vered. However, until recently this tool had not been used to a great extent in the construction industry.
The abrasive waterjet offers several advantages over conventional cutting techniques. With stricter environmental laws in most states, waterjet technology may be the only method that can replace conventional tools. The following is a summary of some important benefits [2]. Low levels of Dust Generated: The water car ries away the abrasive particles and the kerf material making the process virtually dust free. No Sharpening Needed: There is no direct contact between the waterjet and the material being cut. Therefore there are no parts to be sharpened. No Heat Created During Cutting: The waterjet is safe to use in explosive environments, such as fuel tank demolition. High Quality Cut: Finishing steps are avoided or reduced in metals. This saves both time and material. Compatible with Robots: Low reaction forces allow robotics to be used. This also allows for easier handling of the material. According to Jet Edge, a manufacturer of the waterjet, some other advantages include [3], Portable Cutting and Easy to Us e features.
Along with the advantages of waterjet cutting there are also some disadvantages. The waterjet is a sophisticated machine: With the depth of cut dependent on many parameters, it takes trained operators to get the best performance at the lowest cost.
Cost of equipment
Depending on the system, the price can range from a low of $20,000 to a high of $500,000 [3]. High Noise Level: With a proper catcher the abrasive waterjet is as loud as 90 dB. In open air the noise level can reach 110 dB or higher [4]. Mixing Nozzle Wear: The mixing nozzle needs to be replaced every 2-6 hours depending on the abrasive type being used and abrasive flow rate [5].
Components
The abrasive waterjet consists of a stream of ultra-high pressure water carrying abrasive at velocities of up to 2500 feet per second. The cutting is done by an erosive and shearing action of the material. The abrasive acts as tiny knives cutting away the material, in the same manner as saw cuts, only on a much smaller scale and in rapid succession [6].
Pump
High pressure intensifier pumps are used to pressurize the water as high as 55,000 psi. For the abrasive waterjet, the operating pressure ranges from 31,000 to 37,000 psi. At this high pressure the flow rate of the water is reduced greatly [6]. The flow rate for Flow International Corporation’s "Jetpac Intensifier Pump" - model 40Dt is only 4.0 gpm at an operating pressure of 35,000 psi [7]. This is significantly less than the flow rate of traditional hydroblasting methods.
Nozzle
Once the water is pressurized, it is forced through a sapphire nozzle which is composed of the natural sapphire stone due to the strength of the stone. The nozzle can have diameters ranging from 0.003 to 0.026 inches. The diameter of the nozzle can be varied depending on the application for which the waterjet is being used. A damaged nozzle leads to poor cohesion of the stream, thereby reducing the cutting ability greatly. The nozzle typically will last 100 to 200 hours before it needs to be r eplaced [8].
Mixing Tube
The stream of water which emerges from the nozzle is then mixed with the abrasive. This takes place in the mixing tube, which is usually constructed out of tungsten-carbide. Wear of the mixing tube, due to the abrasive, is a problem and it ne eds frequent replacement. When the tube becomes worn, the jet no longer is cohesive and loses power and cutting ability rapidly.
At this point the stream with the abrasive leaves the mixing chamber and is ready to cut almost any material. The diameter of the stream varies from 0.020 to 0.090 inches, which accounts for the small kerf width associated with abrasive waterjet c utting [6].
The abrasive type and size varies depending on the application. Garnet sand is the most common abrasive type due to its abundance and relatively low cost. Aluminum oxide is also fairly common. It is harder than garnet sand, but it is also more e xpensive.
Catchers
After the cut has been made the water, abrasive material is collected in a catcher. In a field situation there are still problems catching the waste material. Often catchers need to be custom designed for a specific job.
Main Construction Applications
The waterjet/abrasive waterjet has an unlimited number of applications. Many of them fall outside of the construction industry and therefore will not be mentioned in this paper. Following are some examples w here the waterjet has already been used or has been tested and found to be suitable for the application.
Applications
Concrete Deck Removal
The removal of deteriorated concrete from bridges and parking decks is an area where waterjets have already been used successfully. The process of selective
removal is defined as "...the capacity to remove completely only the deteriorated concrete, independently of depth to which the damage has penetrated [12]". The waterjet is able to remove the damaged concrete without causing microcracks in the healthy concrete or damaging the reinforcement bars. Although it is more costly to operate a wat erjet tool than a jackhammer for deck removal, there are savings by the shortened time span needed to complete the job and from the need for fewer laborers. Watch related videoPaint Removal
In the United States the removal of lead-based paint from bridges is causing big problems. Traditionally, sand blasting was carried out in the open with no concern for the surrounding environment. Today many states require the complete containment of the removed produce as well as the waste generated from blasting [14]. Waterjet technology has been used successfully for coating removal. The abrasive waterjet is able to remove the coating without creating dust or damaging the base metal, unlike tool s such as mechanical brushes [16]. In the removal process, the metal is also cleaned and prepared for a new application of paint. The surface is cleaned of soluble corrosives and blasted to the specified surface roughness. VIDEO
Cutting
In the construction industry, the abrasive waterjet will most likely be used for cutting steel beams and concrete sections. For steel, the cutting rates are slower with the waterjet than for other tools, such as plasma arcs. However, often the cost is o ffset by the time saved by reducing or eliminating finishing steps. This is because there is no heat affected zone with the waterjet. The waterjet has also been able to cut through thick slabs of concrete. This will save in the cost of buying diamond t ipped saws and sharpening them [4].
Rivet Removal
A study was conducted for the Canadian National Railway on the removal of rivets from railway bridges [17]. Pneumatic tools had been used and were found to be inefficient because the weight of the tool caused excessive fatigue of the operator. Also, a t ool was needed that would be able to be maneuvered in small spaces to remove the rivets close to the flange of the girder.
Waterjet cutting was found to be a feasible method for removing rivets with thicknesses less than 2 inches. At greater thickness the quality of the cut became unacceptable, and a tool that could be inserted into the cut would be needed to perform the job . It was concluded that it is conceivable to design such a tool that would allow deeper cuts without sacrificing edge quality.
Demolution
Hydrodemolition of Concrete such as the removal of deteriorated concrete on bridges and parking structures can be accomplished without damage to reinforcing steel.
Survey
In order to gain a better understanding of how much the industry knows about waterjet technology, a survey was mailed out to various companies. A total of 215 surveys were mailed along with the cover letter and a self-addressed envelope for return. The construction companies were chosen out of the list provided by Associated General Contractors (AGC) in a random manner. A total of 95 surveys were returned. Approximately 42 percent of the companies are familiar with the waterjet. Of the 42 percent wh o were familiar with its use, only about 17 percent of them actually employ this technology in their company.
Of the 17% who use the abrasive waterjet, 100% of them do employ another cutting technique. Eighty-eight percent use the pneumatic hammer, 63% use the diamond blade power saw, 19% employ other techniques such as torches, hydroblasting and grinders.
Of the 17% who employ the abrasive waterjet in their business, 56% use the waterjet for concrete cutting, 38% use the waterjet for steel cutting and 63% use the waterjet for cleaning and paint removal.
Of the 83% who do not use the abrasive waterjet, 76% use the pneumatic hammer, 83% use the diamond blade power saw, 9% use the mechanical brushes and 9% use other techniques such as verneer trenches and torches.
Conclusion and Limitations
It appeared after studying the advantages and disadvantages of the waterjet, that this is a tool that the construction industry should find very useful. Unfortunately, this does not seem to be the case. Many of the regional companies do not seem to have any significant knowledge of the waterjet, thus remaining unwilling to employ this technology.
The responses that we have received have left us with the inability to comment on the cost effectiveness of the waterjet in the construction industry. The majority of companies that we contacted do not employ the waterjet in their companies, nor d o most of them have any knowledge of the abrasive waterjet. These companies seem to be conservative to new technology and unwilling to take risks. This may also be due to the fact that many companies are unwilling to invest in a new technology that is n ot widely used.
The contractors that do employ the abrasive waterjet technology did not provide us with the percentage of cost benefit to their company.
REFERENCES
[1] Behringer -Plosonka, Catherine A., "Waterjet Cutting - A Technology Afloat on a Sea of Potential", Manufacturing Engineering, Vol. 99, Nov. 1987, pp. 37-41.
[2] Haylock, Rob, "Waterjet Cutting", Conference: Automach Australia "85, July 2-5, 1985, Melbourne, Australia.
[3] Slattery, Thomas J., "Abrasive Waterjet Carves Out Metalworking Niche", Machine and Tool Blue Book, July 1991, pp. 31-34.
[4] Hitchox, Alan L., "Vote of Confidence for Abrasive Waterjet Cutting", Metal Progress, Vol. 130, July 1986, pp. 33-34.
[5] Flow International, 1995.
[6] Steinhauser, John, "Abrasive Waterjets: on the ‘Cutting Edge’ of Technology", Flow Systems, Inc.
[7] "Jetpac Intensifier Pump - Model 40DT", Flow Specs, FS-130, Sept. 1989.
[8] Ayers, Gary W., "Principles of Waterjet Cutting", Tappi Journal, Vol. 70, Sept 1993, pp. 91-94.
[9] Zaring, K., "Advanced Abrasive Waterjet Hardware and Cutting Performance", 5th American Waterjet Conference, Aug. 1989.
[10] Hashish, M., "Steel Cutting With Abrasive Waterjets", 6th International Symposium on Jet Cutting Technology, April 1982.
[11] Vijay, M.M., "A Critical Examination of the Use of Waterjets for Medical Applications", 5th American Waterjet Conference, Aug. 1989.
[12] Medeot, R., "History, Theory and Practice of Hydrodemolition", 5th American Waterjet Conference, Aug. 1989.
[13] Schmid, R.F., "High Pressure Hydro-Milling of Concrete Surfaces", 5th American Waterjet Conference, Aug. 1989.
[14] Peart, John W., "Lead-Pigmented Paints - Their Impact on Bridge Maintenance Strategies and Costs", Public Roads, Vol. 52 Sept. 1992, pp. 47-51.
[15] Katausakas, Ted, "DOT Coasts Rusting Bridges With Layers of Problems", R&D Magazine, May 1990, pp. 43-48.
[16] Baldry, Ian, "Surface Preparation", Civil Engineering (London, England), April 1987, pp. 47-48.[17] Falcone, Linda M. Tonkay, Gregory L., "Economic Feasibility of a Tool to Remove Rivets From Railway Bridges", Proposal to The Canadian National Railway, April 199
Friday, December 12, 2008
Precision Cutting with NITRO JET Cutter "NJC"
Precision Cutting with NITRO JET
The Nitro-Jet-Cutting uses liquid nitrogen instead of water, which enables the use of a wider variety of entrainment materials (even those that are water soluble) giving greater flexibility when cutting hard materials and making cleanup of water soluble entrainment materials quicker and more complete.
In addition, the temperature and pressure of the liquid nitrogen stream are infinitely variable – providing greater accuracy and control when cutting through hard (composites, carbon steel, ceramics) and soft (plastic, food, zinc) materials alike – all without delamination or damage.
Nitro-Jet-Cutting can be used manually or incorporated into a robotics system for automated and repeated cutting.
watch video dubble click on video screen to enlarge
For more info? contact
Sunday, December 7, 2008
Drilling Tool Enables Waterjet Cutting Of Laminated Materials
Drilling Tool Enables Waterjet Cutting Of Laminated Materials: MMSOnline.com: "Drilling Tool Enables Waterjet Cutting Of Laminated Materials
This drill addresses delamination problems when cutting composites with waterjet.
Article from: Modern Machine Shop, Posted on: 8/12/2008
According to manufacturer , the Pneumatic drill addresses de-lamination problems when waterjet cutting materials such as laminated shim stock, composites and phenolics. The product enables drilling through such material at a specific offset from the waterjet cutting head. The waterjet can then start the cut from within the pre-drilled hole. This process can be automated with the IGEMS CAD/CAM program.
The drill can also be useful for cutting high-tolerance holes in various steel and stainless steel materials, the company says. By using the drill's reaming capabilities, users can pierce the initial hole with the waterjet and then proceed with reaming operations to obtain higher tolerances. The drill can be mounted on any of the company's waterjet cutting systems."
This drill addresses delamination problems when cutting composites with waterjet.
Article from: Modern Machine Shop, Posted on: 8/12/2008
According to manufacturer , the Pneumatic drill addresses de-lamination problems when waterjet cutting materials such as laminated shim stock, composites and phenolics. The product enables drilling through such material at a specific offset from the waterjet cutting head. The waterjet can then start the cut from within the pre-drilled hole. This process can be automated with the IGEMS CAD/CAM program.
The drill can also be useful for cutting high-tolerance holes in various steel and stainless steel materials, the company says. By using the drill's reaming capabilities, users can pierce the initial hole with the waterjet and then proceed with reaming operations to obtain higher tolerances. The drill can be mounted on any of the company's waterjet cutting systems."
Is It A Mill, A Waterjet Cutter Or Both?
If you remove the cutting head and high-pressure pump from a waterjet cutter, then you’d be left with essentially a machine frame and computer numerical control motion. A CNC vertical machining center also possesses both of these things.
http://www.hydrocut.gr/
Is It A Mill, A Waterjet Cutter Or Both?: MMSOnline.com
http://www.hydrocut.gr/
Is It A Mill, A Waterjet Cutter Or Both?: MMSOnline.com
Wednesday, November 12, 2008
Η Ελλάδα και πάλι μπροστά - Τώρα και στην Υδροκοπή
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Για να μην λετε ότι δεν ξέρατε...
Η ΕΛΛΑΔΑ ξέρει να ΦΤΙΑΧΝΕΙ ΜΗΧΑΝΕΣ ΥΔΡΟΚΟΠΗΣ και θα το αποδείξω.
Μάλιστα ανταγωνίζεται όχι μόνο τα κινέζικα στης τιμές αλλά και τους ΣΚΑΝΔΙΝΑΒΟΥΣ στην ποιότητα.
Τίποτα δεν έχει να ζηλέψει τους ΓΕΡΜΑΝΟΥΣ στην τεχνολογία ούτε τους ΙΤΑΛΟΥΣ στην εμφάνιση.
ΕΙΣΑΓΩΓΗ ΣΤΑ ΜΥΣΤΙΚΑ ΤΗΣ ΕΠΙΥΤΙΧΙΑΣ .....
Η Υδροκοπή (WJC) είναι η τεχνολογία κοπής που έρχεται από το μέλλον. Εύκολα ξεχωρίζει από τις άλλες μεθόδους κοπής, λόγω της μεγάλης ευρύτητας εφαρμογών και του οικολογικού, 100% μη ρυπογόνου, τρόπου λειτουργίας. Η κοπή επιτυγχάνεται μέσω μιας δέσμης νερού μικρής διαμέτρου (0,5-1,2 χιλιοστά) και υπερ-υψηλής πίεσης (4.000 ατμόσφαιρες), με ή χωρίς την προσθήκη σμύριδας ανάλογα με το υλικό. Η Υδροκοπή πρωτοεμφανίστηκε στα μέσα της δεκαετίας του’80, αν και οι καταβολές της, σαν jet υψηλής πίεσης, φτάνουν στις αρχές του 20ου αιώνα. Από τα τέλη της 10ετίας του ’90 γνωρίζει μεγάλη εξάπλωση, αφού μέχρι τότε ήταν κοστολογικά απρόσιτη. Ευέλικτη, χωρίς περιορισμούς σε διαστάσεις, πάχη, υλικά, ακρίβεια και γεωμετρία του προς κοπή σχεδίου, είναι πρακτικά η μόνη τεχνολογία που ως όριο, έχει μόνο τη φαντασία.
Καλή Πάστα..
Tα μηχανήματα της hydrocut είναι εφοδιασμένα με κορυφαία εξαρτήματα (ΚΜΤ , I.T.T., BOSCH-REXROTH, ITEM, PHOENIX-CONTACT)
Ξεχάστε αυτά που Ξέρατε
Η σειρά Υδροκοπής VEGA ενσωματώνει 5 μοντέλα για όλες τις απαιτήσεις. Τα μοντέλα διαφοροποιούνται από τα βασικά τους χαρακτηριστικά αλλά και από τον πρόσθετο εξοπλισμό που ξεπερνάει τις 50 επιλογές. Καινοτομία και αποκλειστικό πλεονέκτημα της Hydrocut στη σειρά VEGA, είναι ο συνδυασμός πολλών τεχνολογιών που παρουσιάζουν συνέργια με την Υδροκοπή. Plasma, Router,Marking, Drilling, Tapping στο ίδιο μηχάνημα. Το αποτέλεσμα καλύπτει 100% τις ανάγκες μιας πλήρως παραγωγικής γραμμής όσο σύνθετη και αν είναι. Μεγιστοποίηση του οικονομικού αποτελέσματος με ακρίβεια και ταχύτητα.
Η νέα Επιλογή
WJC+Plasma = COMBO
Η εμπορικότερη εφαρμογή των παραπάνω υλοποιείται στη σειρά COMBO. Με την προσθήκη Plasma στην υπάρχουσα κεφαλή WaterJet, δημιουργήσαμε ένα μοναδικό προϊόν συνδυασμένης κοπής. Στο επιλεγμένο μοντέλο υδροκοπής ως βάση, ενσωματώνουμε ένα σταθμό κοπής Plasma ώστε να επιτύχουμε μεγάλη μείωση της λειτουργικής δαπάνης (στα μέταλλα) λόγω της ευελιξίας που προσφέρει αυτός ο συνδυασμός. Το προηγμένο λογισμικό που διαθέτει μπορεί να λειτουργεί τελείως ανεξάρτητα την κάθε τεχνολογία ή ακόμα και τις δύο μαζί ταυτόχρονα στο ίδιο κομμάτι. Με απίστευτα φιλικό περιβάλλον χειρισμού στα ελληνικά και με την αμεσότερη υποστήριξη μετά την πώληση, η αγορά ενός συστήματος υδροκοπής VEGA, αποτελεί την επόμενη έξυπνη κίνηση που θα οδηγήσει την επιχείρηση σας σε ένα άρτιο τεχνολογικό μέλλον.
10 χρόνια Παγκόσμια
Εδώ και 10 χρόνια η Hydrocut δημιουργεί τεχνογνωσία για την Ελλάδα και τον κόσμο ως ενεργά μέλη της Διεθνούς Ενώσεως Κατασκευαστών Waterjet (WJTA).
Η Ομάδα
Η WWW.HYDROCUT.GR αποτελείται από μια ομάδα νέων ανθρώπων που δραστηριοποιούνται στην κατασκευή CNC συστημάτων υδροκοπής από το 1999 και ανταγωνίζονται με επιτυχία τις πλέον προηγμένες χώρες (Σουηδία, Ελβετία, Αμερική) Σαν πρωτοπόρος και μοναδικός κατασκευαστής συστημάτων υδροκοπής στην νοτιοανατολικής Ευρώπης , βρίσκεται στην πρώτη θέση της Εγχώριας αγοράς και αναπτύσσεται συνεχώς, προωθώντας τα προϊόντα της στην απαιτητική αγορά της Βόρειας Ευρώπης και της Σκανδιναβίας.
Η πελάτες
Πελάτες της, είναι επιχειρήσεις από όλους του χώρους της βιομηχανίας και της βιοτεχνίας, που ενσωματώνουν συστήματα κοπής υψηλής απόδοσης για καλύτερη ποιότητα κοπής σε όλες τις προδιαγραφές.
Τα Υλικά
Τα υλικά που μπορούν να κοπούν με Υδροκοπή είναι αμέτρητα δείτε μερικά παραδείγματα:
-Αφροδες υλικά
-Κρύσταλλα
-Κεραμικά
-Μέταλλα
-Τρόφιμα
-Ξύλο
-Χαρτί
-Ορυκτά
-Πλαστικά
Το Video
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