Metalworking Machinery

2,081 Machines

Well-maintained machines from top brands - for industry & craft

Metalworking business complexity is reflected in the great diverity of second hand metalworking machinery. There is a suitable used machine for each procedure: die casting machines and kilns for prototype-forming; presses, guillotine shears and forging machines for shaping; milling machines, drilling machines and lathes for machining; laser cutting machines for tool-free separating; welding machines for joining; machinery for surface treatment; measuring and testing machines for precision checks. You will find these and many more machines from leading manufacturers among our auctions at Surplex. Get high quality at fair prices!

Name
Location
Current bid
Number of bids
Closing time
FRECH DAW 80 E Die-Casting Machine
Oswaldwistle A…
46,000€
20/02/2019 10:05
0 Bids
20
WALDRICH-SIEGEN WST IV H80 x 12000 Roll Grinding Machine
 
on request
HOEFLER H - 4000 Maxima Gear Grinding Machine
 
on request
Blasting and Painting Line
MARKE
 
on request
OTECO OPTIMA Suspension Track Blasting Machine
MARKE
 
on request
LIECHTI Turbomill ST1200 5-Axis Milling Machine
Lokeren
 
on request
TECNO TUBI Roll-Forming Machine for Scaffolding Boards with Clinch System
region Terni
80,000€
05/03/2019 14:02
0 Bids
05
GROB G 350 Universal Machining Centre
Magdeburg
75,000€
06/03/2019 10:08
0 Bids
06
Profiling Line
Profiling Line
Acqualagna (PU)
65,000€
05/03/2019 14:24
0 Bids
05
GRANDINI Roll-Forming Machine for Scaffolding Boards with Clinch System
region Terni
60,000€
05/03/2019 14:01
0 Bids
05
Profiling Line
Profiling Line
Acqualagna (PU)
60,000€
05/03/2019 14:26
0 Bids
05
TRUMPF TRUMA BEND V 3200 Hydraulic Press Brake
Grosswangen
57,350€
12/03/2019 14:49
0 Bids
12
HORIZON H700 Horizontal Machining Centre
Budeasa Mare, …
49,000€
20/02/2019 10:19
0 Bids
20
TOSHIBA BMC 800 Horizontal Machining Centre
Budeasa Mare, …
42,000€
20/02/2019 10:14
0 Bids
20
2 x INNSE BERARDI Atlas 3 RMI Portal Milling Machines with 5-fold pallet station
Schwerin
 
on request
ESCOFIER GFV CNC-Cold Rolling Machine
Korschenbroich
38,000€
06/03/2019 10:05
0 Bids
06
ENSHU JE30S Horizontal Machining Centre
Nesselwang
36,500€
19/02/2019 14:17
0 Bids
19
AMADA LC 3015-X1 NT Laser Cutting Machine
Donaueschingen…
49,000€
19/02/2019 14:00
16 Bids
19
FACCIN 3 HEL 3-roll plate bender
30,000€
07/03/2019 09:50
0 Bids
07
AWEA A+1600 Vertical Machining Centre
Trencin
36,900€
05/03/2019 11:00
8 Bids
05
OCEVI Coil Slitting Line
Acqualagna (PU)
28,000€
05/03/2019 14:18
0 Bids
05
FREEPORT SGS-3488 AHD Surface Grinder
Trencin
32,900€
05/03/2019 11:09
6 Bids
05
TRUMPF TC 2020 RFMC Sheet Metal Processing Machine
Zofingen
35,000€
12/03/2019 14:09
11 Bids
12
EWAG Ewamatic line "Multi" CNC Tool Grinding Machine
Stuttgart
24,000€
06/03/2019 10:19
0 Bids
06
FREEPORT SGS-2448 AHD Surface Grinder
Trencin
23,900€
05/03/2019 11:07
1 Bid
05
INNSE BERARDI Atlas 3 RMI Portal Milling Machine
Schwerin
 
on request
INNSE BERARDI Atlas 3 RMI Portal Milling Machine
Schwerin
 
on request
DMG-DECKEL-MAHO DMU 60 P 5-Axis Machining Centre
20,000€
07/03/2019 12:22
0 Bids
07
AMSTECH AW 9S Wire EDM Machine
Trencin
19,900€
05/03/2019 11:04
0 Bids
05
STARRAG HECKERT CWK 500 Horizontal Machining Centre
Unterschleißheim
19,500€
06/03/2019 10:18
0 Bids
06
MORI SEIKI NV 5000 A/40 Vertical Machining Centre
Hamburg
19,000€
26/02/2019 10:00
0 Bids
26
MORI SEIKI NV 5000 A/40 Vertical Machining Centre
Hamburg
18,000€
26/02/2019 13:19
0 Bids
26
ELB-SCHLIFF Perfekt BD 20 SPS-NK Surface Grinder
16,800€
07/03/2019 12:48
0 Bids
07
INDEX G 200 CNC Turning and Milling Centre
Lauffen
17,000€
20/02/2019 10:00
2 Bids
20
MAZAK VTC 20C Vertical Machining Centre
Komarov
14,900€
20/02/2019 10:06
1 Bid
20
MORI SEIKI SH-500/40 Horizontal Machining Centre
Hamburg
13,500€
26/02/2019 14:09
3 Bids
26
LVD PPEB EQ Hydraulic pressbrake
12,000€
07/03/2019 09:01
0 Bids
07
MESSER TOPLINE ECOLAS Laser Cutting Machine
Walsrode
10,700€
19/02/2019 14:34
1 Bid
19
DECKEL MAHO DMU 35 M Universal Machining Centre
Korschenbroich
10,500€
06/03/2019 10:20
0 Bids
06
MORI SEIKI SH-50 Horizontal Machining Centre
Hamburg
12,650€
26/02/2019 10:49
7 Bids
26
CHMER EDM CM 865 C + CD-75 N Die Sinking EDM Machine
Trencin
10,650€
05/03/2019 11:06
3 Bids
05
TROMMELBERG GRADIENT SB7428 Spraying Booth
Sibiu
9,900€
20/02/2019 10:20
0 Bids
20
DROOP+REIN T 2550 TR75C CNC Portal Milling Machine
Schwerin
 
on request
DECKEL MAHO DMU 60 T CNC Machining Centre
Weilheim Teck
12,000€
19/02/2019 14:23
13 Bids
19
STEMAC 315 CNC Plasma Cutting Machine
Zona Industria…
7,620€
26/02/2019 14:44
4 Bids
26
CHARMILLES Robodil 4020 i Wire erosion
6,800€
07/03/2019 10:58
1 Bid
07
WAGNER WMC 800 Machining Centre
Weilheim Teck
6,000€
19/02/2019 14:38
1 Bid
19
ESAB ULTRAREX UXD-P 2500 Flame Cutting Machine
Acqualagna (PU)
6,000€
05/03/2019 14:17
0 Bids
05

Used metalworking machines for industrial use

Index

  1. Metals for modern products
  2. Metal industry sectors and machinery types
    1. Prototype-forming by casting and pressure casting
    2. Shaping of metals
    3. Separating processes
    4. Cutting metals without tools
    5. Metal joining
    6. Metal surface treatment
    7. Precision checks by measuring and testing machines
  3. What do I need to know when buying metalworking equipment?
    1. Lifespan of metalworking machinery
    2. Buying second-hand
    3. Inspecting metalwork machinery
    4. Maintaining and repairing metal-working machines
  4. Well-known manufacturers of metalwork machines



Metals for modern products

The processing of metals is one of the most important achievement of the human race. Metal’s diverse features make its possible uses almost limitless – there is hardly a product on the market that can be made without the use of metallic components.
Getting the metal into the desired shape requires specialist machinery, of which there is a wide selection. Once mined from the earth, the metal can be melted and reshaped as many times as is needed to create new products.




Metal industry sectors and machinery types

Prototype-forming by casting and pressure casting


Metal is extracted from ore in the smelter and cast into slabs in the smelting plant. This area of metal processing is called prototyping and it involves shaping the metal without the use of machining techniques. This process is primarily of interest to the semi-finished product industry.
Pressure die casting machines and cast iron plants, on the other hand, directly process the metals from the smelting plant into the final products. Foundry machines include furnaces, pans, continuous casting machines and extrusion machines, using which profiles and semi-finished products are manufactured.

Shaping of metals


After creating a metal prototype, the metal is rolled and processed into blocks, slabs or strips. These are the first steps in the shaping process. The metal is then transformed from one shape to other by pressing, rolling, bending, folding or forging, using a machine designed for each step.

  • Rollers are used in steelworks and sheet metal processing operations to straighten and assemble thin sheets
  • Presses can form a wide variety of final products from the metal blanks provided
  • Folding presses fold metal sheets into the desired angle
  • Forging presses are used for especially large-scale, solid workpieces. They are often used to prepare components that will be subjected to large forces/strain

Forging produces especially hard and resilient products. In order to forge more complex workpieces, such as crankshafts, it is often the case that several forging tools are used one after the other. These then shape the workpiece to the desired form through incremental steps.

These shaping processes, however, do not alter the mass of the metal, but this is not the case in most metalworking procedures. Press brakes, shearing machines and general presses are known as sheet metal processing machines.

Separating processes


Separating processes include the machining of workpieces using the following machines:


The simplest ‘dividing machines’ in the metal industry are sheet metal cutters and shearing machines, which cut the sheet metal provided in one linear direction.

Punching and notching machines can then be used to punch out predefined sections of the blank.

When it comes to fine machining, CNC milling machines are the number one choice. They can machine metal blocks in any way needed and can manufacture highly complex contours.

Lathes, on the other hand, are used for producing rotationally-symmetric turned parts. Mills and lathes belong to the field of machining.

The highest-quality CNC mills are machining centres. They can perform both manufacturing processes with excellent repeat accuracy and consistent quality.
CNC machining centres are some of the most complex, state-of-the-art and expensive machines in the metal industry, which still applies when buying second-hand.

A special type of milling/grinding machine is the gear cutting machine, which is used to created gears and other toothed wheels. Gears and the like need to feature consistent precision, even in serial production, which means the machines must be extremely high quality. The gear cutting machine is similar to conventional machining centres, but it features a few special functions specially tailored to their task. A gear cutting machine (also including rolling machines and gear grinding machines) is usually downstream of a hardening facility, which makes metallic gears highly resilient.

Another widespread yet simple piece of machining equipment is the drilling machine. It is used for setting blind- and through-holes as well as cutting threads. Nowadays, drilling machines are frequently integrated into CNC machining centres.

Finishing and surface processing are then performed by grinding, polishing and lapping machines. They ensure that the abrasion process only removes a hundredth or thousandth of a millimetre for extremely precise results. In addition to achieving the desired tolerances, grinding, polishing and lapping machines also serve to prepare metals for galvanising. Applying chrome finishes to metallic products also requires thorough polishing treatment.

A special type of division and abrasion machinery is the eroding machine. These “reverse welding machines” operate using an electric current and can create highly precise cavities in metal blocks. Eroding machines are often used in tool-building and produce resilient highly precise tools for presses, punching machines, and pressure/injection casting machines.

Cutting metals without tools


In addition to mechanic division processes, such as sawing, milling and grinding, there are also some ways of cutting metals which do not require any tools.

The simplest and cheapest way of cutting metal into pieces is flame cutting. This involves a flame consuming fuel gas and oxygen at high temperatures being guided through a piece of metal.
It can be a fairly rough method and produces imprecise gaps of several millimetres even when operated using CNC equipment. Flame cutting also creates a zone of several millimetres along the burning edges in which the metal hardens to a great extent. If this is not desired for the end product, this “heat-affected zone” must then be milled.

Plasma cutting is similar to flame cutting but it is more precise and less prone to creating heat-affected zones. Using CNC guidance and a firing table, plasma cutting can produce highly precise contours even on thick material.
Flame- and plasma-cutting machines require a starting material that is at least a few millimetres thick. Plasma- and flame-cutting can also be used on materials up to several centimetres thick.

When it comes to thin sheets, laser cutting is the ideal choice. It produces extremely fine, precise results without resulting in any significant cutting loss. In contrast to flame cutting, laser cutting is not possible using a hand-held device. Laser cutting machines are generally stationary work tables with computer numerical control (CNC).

In cases where cold cutting processes are preferred, water jet cutting is the path to take. This established method involves a very strong and piercing jet of water and an abrasive medium cutting through metallic sheet material. Also known as “aqua cut”, this procedure produces no heat-affected zones whatsoever and can achieve very high levels of precision.

Metal joining


The most widely used process to join metals is welding. The simplest form of welding is friction welding, but it is rarely used. Electric- and gas-shielded arc welding are far more widespread. Submerged arc welding (SAW) is the ideal choice for very thick sheet metal.

Electric- and gas-shielded arc welding devices are available as hand-held tools through to large-scale stationary welding machines. Friction and SAW welding devices are only used for processing large parts.

Other methods of metal-joining include riveting and gluing.

Metal surface treatment


Alongside grinding and polishing are a number of other surface treatment machines designed for use on metals, which can be sub-divided into “coating machines” and “treatment machines”.

Coating machines


The coating machines used in the metal industry are primarily galvanic coating systems. They cover the finished metal product with a thin layer made from zinc, copper, gold or chrome. The simplest galvanic coating systems are known as hot-dip galvanising plants. They are mostly used on steel products to provide permanent protection against corrosion.
Chromium plating systems are also widely used. These are complex and use a multi-stage dipping procedure where the metal products are coated in a thin layer of shiny chrome.

In addition to galvanising, there are also powder-coating procedures that can be used on metal products. This involves subjecting the finished products to an electrical current which then causes them to attract a powder coating that is sprayed in their direction. Once coated in plastic-based powder, the products are taken to a furnace where the plastics melt and form a seamless surface that protects the metal from corrosion over its lifespan and gives to the product the desired colour.

Metals can also be coated using any number of painting and adhesion procedures.

Treatment machines


The main types of metal treatment machines are hardening/tempering plants using heat. These consist of an annealing furnace and a bath of oil and work by heating and rapidly cooling the workpiece to create a resilient, tempered surface zone. Hardened metallic products are often used where abrasion processes are expected: gear wheels, bearing shells, shafts and grinding paths are often given a hardened surface in order to increase the lifespan of the final product.

Precision checks by measuring and testing machines


A final product is only as good as its worst component. This is why a range of measuring and testing machines have been developed to ensure each single part of a construction possesses exactly the right properties and dimensions. Material testing is a very special component of metal processing. It can be roughly sub-divided into “destructive” and “non-destructive” testing methods.

Destructive metal-testing procedures


The classic machine used for destructive testing is the universal tensile testing machine, which works by clamping a metal sample in a tension device and pulling it until it falls apart. This helps precisely define the elastic and deforming zones of a material.

Notched impact hammers are also a widely used method that investigate the resilience of a material. They involve a rotating hammer that strikes a metal sample widthways to determine the force required to break it.

Hardness testing machines also require a defined, pre-treated sample, which they penetrate at a defined force using a needle to measure how deep the needle passes into the material. In recent years, widespread use of manual hardness testing machines is starting to give way to automated systems.

To obtain a comprehensive overview of a metal product’s composition, the machine to use is the spectrometer which closely examines the metal’s structure and any alloys present.

Non-destructive metal-testing procedures


Testing methods that do not destroy the sample include visual, tactile and more penetrative approaches.

Visual metal-testing processes include all testing steps that can be performed by the naked eye: from the ruler, measuring tape, measuring slider, test screw, magnifying glass or microscope – industry offers a huge selection of different testing tools for visual inspection. Today, these are often supported by highly precise laser measuring devices.

Tactile measuring methods may involve, for example, 3D coordinate-measuring systems that work by leading a highly sensitive probe or scanning head over a metallic product to measure its dimensional accuracy at a selection of pre-defined points. This approach is frequently used for checking welded constructions.

Two main approaches are used to glimpse inside the metal without destroying it: x-ray and ultrasound. X-ray is very precise and reliable but is dangerous due to the radiation produced, which becomes especially troublesome since some tests may take several hours (depending on material thickness).
Ultrasound procedures, by contrast, are far quicker, less dangerous and can be performed using hand-held or stationary devices.




What do I need to know when buying metalworking equipment?

Lifespan of metalworking machinery


Even the very best lathe (or any type of machine for that matter) becomes as worthless as scrap metal at some point in time. In contrast to woodworking machines, those for metal are always limited when it comes to service life: the forces involved are simply too great and even the most robust designs will wear out over time.

However, another aspect to consider when it comes to metal working tools is the pressure to innovate and create new machines, which is far more considerable than in the woodworking field: the tolerances become ever more precise and narrow, the complexity of contours required continually increases and productivity, of course, simply must be enhanced. This then leads to older but still serviceable machines becoming obsolete and replaced by more modern, high-performance machinery.

Buying second-hand


As such, it is important that prospective purchasers of used metalworking machinery carefully consider what tolerances, complexity and productivity they hope to achieve with their second-hand metal work tools. For each type of machine there are different technical specifications that can assist the buyer:

  • Number of firing cycles for pressure casting machines
  • Pressing forces and cycle rate for punches and presses
  • Feed rates for mills and lathes

etc. Once it is known what the minimal expectations of the used metal-working machines are, the hunt for a suitable machine can begin.

Inspecting metalwork machinery


Once found, the task is to closely inspect the metal machinery. Operating hours, signs of wear, and general condition can provide key insights into the metal work equipment.
In an ideal scenario, a test should be performed under real conditions by producing a defined sample piece using the machine and then carefully measuring it to determine dimensional accuracy. This also allows the potential buyer to determine the machine’s production speed (nothing is worse than finding out too late that the machine cannot produce the number of units needed in the desired time). It is wiser to make a compromise in terms of achieving a particular tolerance than by settling for substandard productivity.

Maintaining and repairing metal-working machines


The task of maintaining and repairing metal working machines is solely intended for trained experts and specialist companies, but there are now many to choose from in the field. Some specialists are also capable of more than simply restoring a used machine’s original functions: the machine’s capabilities can even be increased to give the machine a new lease of life for future years. Some specialists are capable of enhancing the productivity, precision, rigidity and functionality of a used metal-working machine to such an extent that it can compete on an (almost) playing field level with a brand-new machine.

That said, every metalworking machine has its own use-by date, after which overhauling is not economically viable, but ongoing repairs, maintenance and expertise can keep pushing it back.




Well-known manufacturers of metalwork machines

The number of companies that produce metalworking machines is just as extensive as the variety of approaches to processing metals. As with the woodworking machine sector, there are producers offering a wide selection of machines and devices as well as manufacturers with a very specific machine portfolio.

As for the second-hand market, there are also many companies that play a key role in ensuring used machines produced by companies no longer in existence can continue to be used for a variety of applications and attain the best results, thereby helping operators to fully benefit from the price advantages of buying second-hand

The following overview presents the best-known manufacturers and the machines available from them.

Products ALZ-
METALL
AMADA DECKEL EMCO FLOTT KALTEN-
BACH
KASTO MAZAK OPTIMUM TRUMPF Bending
machines - yes - - - - - - yes yes Drilling
machines yes - - - yes yes - - yes - Lathes - - - yes yes - - yes yes - Milling
maschines/ MC yes - yes yes yes yes - yes yes - Laser-
cutting systems - yes - - - - - yes - yes Measuring &
testing machines - yes - - - - - - yes - Surface
treatment - - - - - yes - - - - Presses - yes - - - - - - yes - Saws - yes - - yes yes yes - yes - Grinding
machines - yes - - yes - - - yes - Welding
technology - - - - - yes - - - yes Punching
machines - yes - - - - - - - yes