1.0
Company
1.1
About Us
1.2
History
1.2.1
1974
1.2.2
1987
1.2.3
1988
1.2.4
1989
1.2.5
1990
1.2.6
1992
1.2.7
1995
1.2.8
1996
1.2.9
1997
1.2.10
2000
1.2.11
2004
1.2.12
2005
1.2.13
2008
1.2.14
2009
1.2.15
2010
1.2.16
2012
1.2.17
2013
1.2.18
2015
1.2.19
2016
1.2.20
2017
1.2.21
2018
1.2.22
2019
1.2.23
2022
1.2.24
2022
1.3
Why Nordimpianti?
1.4
Mission
1.5
Services
1.5.1
Project data acquisition for Factory Design and layout drawings
1.5.2
Back up support during site and building construction
1.5.3
Design of machinery and equipment
1.5.4
Production of machinery and equipment
1.5.5
Quality Control
1.5.6
Delivery
1.5.7
Installation-Production Start-up and Personal Training
1.5.8
Extensive after sales service and spare parts support
2.0
Products
2.1
Casting Machines
2.1.1
Extruder Series EVO
2.1.1.1
Models
2.1.1.2
e60evo
2.1.1.3
e120evo
2.1.1.4
e125evo
2.1.1.5
e150evo
2.1.1.6
e240evo
2.1.1.7
Technology
2.1.1.8
Description
2.1.1.9
Technical data
2.1.1.10
Top Advantages
2.1.1.11
Gallery
2.1.2
EVO2 Extruder
2.1.2.1
Models
2.1.2.2
Technology
2.1.2.3
Description
2.1.2.4
Technical data
2.1.2.5
Main Advantages
2.1.2.6
Gallery
2.1.3
Extruder Nano
2.1.3.1
Models
2.1.3.2
Technology
2.1.3.3
Description
2.1.3.4
Technical data
2.1.3.5
Uses Standard Beds
2.1.3.6
Element Options
2.1.3.7
Main Advantages
2.1.3.8
Gallery
2.1.4
Slipformer Series SF
2.1.4.1
Types of Machines
2.1.4.2
Slipformer for
Hollow Core Slabs
2.1.4.3
Slipformer for
Solid Slabs
2.1.4.4
Slipformer for
Inverted T-Beams
2.1.4.5
Slipformer for
Inverted I-Beams
2.1.4.6
Slipformer for
Vineyard posts
2.1.4.7
Slipformer for
Lintels
2.1.4.8
Slipformer for
Foundation Piles
2.1.4.9
Slipformer for
Half Slabs
2.1.4.10
Slipformer for
Filigree Slabs
2.1.4.11
Slipformer for
Inverted double T slabs
2.1.4.12
Slipformer for
Inverted triple T slabs
2.1.4.13
Slipformer for
Inverted double T beams
2.1.4.14
Slipformer for
U panels
2.1.4.15
Slipformer for
Grandstand panels
2.1.4.16
Technology
2.1.4.17
Description
2.1.4.18
Top Advantages
2.1.4.19
Gallery
2.1.5
Wet Casting Series WF
2.1.5.1
Types of Machines
2.1.5.2
Wet Casting for
Hollow Core Slabs
2.1.5.3
Wet Casting for
Single Hole Beams
2.1.5.4
Wet Casting for
Inverted T-Beams
2.1.5.5
Wet Casting for
Inverted I-Beams
2.1.5.6
Wet Casting for
Vineyard posts
2.1.5.7
Wet Casting for
Lintels
2.1.5.8
Technology
2.1.5.9
Description
2.1.5.10
Technical data
2.1.5.11
Top Advantages
2.1.5.12
Gallery
2.2
Extruder Series EVO
2.3
EVO2 Extruder
2.4
Extruder Nano
2.5
Slipformer Series SF
2.6
Wet Casting Series WF
2.7
Saw
2.7.1
Multi-Angle Saw Series C-AM
2.7.2
Cross-Cut Saw ETR
2.7.3
Cross-Cut Saw TR
2.7.4
Fresh Concrete Saw 500L
2.8
Lifting Equipment
2.8.1
Factory
2.8.1.1
Telescopic lifting beam with clamps
for Hollow Core Slabs
2.8.1.2
Lifting beam with clamps
for Hollow Core Slabs
2.8.1.3
Lifting beam with clamps
for Inverted T beams
2.8.1.4
Lifting clamp
for Inverted T beams
2.8.1.5
Hydraulic lifting beam
2.8.2
Site
2.8.2.1
Lifting beam with clamps
for Hollow Core Slabs
2.8.2.2
Telescopic lifting beam with clamps
for Hollow Core Slabs
2.9
Lifting Machine
2.10
Transport Wagons
2.10.1
Lifting Machine
2.10.2
Product Stacker
2.10.3
Pulling Device for Transport wagons
2.10.4
Transport wagons
2.11
Multifunction Bed Cleaner
2.12
Bed Cleaners
2.12.1
Multifunction Bed Cleaner
2.12.2
Vacuum Bed Cleaner
2.13
Cleaning and oiling machine
2.13.1
Multifunction Bed Cleaner
2.13.2
Vacuum Bed Cleaner
2.14
Debris Conveyor Chain
2.15
Steel Wire Laying
2.15.1
Wire drawing trolley
2.15.2
Multifunction Machines
2.16
Steel Wire Storage
2.16.1
Wire coil holder trolley
2.16.2
Stackable strand decoiler
2.16.3
Single Wire Cage
2.17
Stressing and Detensioning
2.17.1
Single stressing system
2.17.1.1
Wire stressing machine
2.17.1.2
Reaction Beams
(with detensioning system)
2.17.1.3
Reaction Plates
(without detensioning system)
2.17.2
Multistressing system
2.17.2.1
Multistressing Machine
2.17.2.2
Reaction beams
2.17.3
Detensioning System
2.17.3.1
Detensioning pump unit
2.17.3.2
Detensioning Cylinders
2.18
Concrete transport and distribution
2.18.1
Bucket
2.18.1.1
Bucket for Concrete:
Mechanical Opening
2.18.1.2
Bucket for Concrete:
Hydraulic Opening
2.18.2
Bucket holder trolley
2.18.3
Bucket holder rotating platform
2.18.4
Belt Concrete Transporter
2.18.5
Fly Buckets
2.18.6
Concrete Distibutor
2.19
Bucket
2.20
Concrete Curing
2.20.1
Accelerating Curing Plant for Concrete
2.20.2
Maturity Control System
2.20.3
Coiler Holding Trolley
2.21
Element Covering
2.21.1
Coiler Holding Trolley
2.22
Element Marking
2.22.1
Plotter for Hollow Core Slabs
2.22.2
T-Beam marking machine Automatic Type
2.22.3
T-Beam marking machine Semi-Automatic Type
2.23
Concrete Aspirator
2.24
Equipment for fresh concrete working
2.24.1
Concrete Aspirator
2.24.2
Weep Hole Drill
2.24.3
Surface Grooves Machine
2.25
Casting Beds
2.25.1
Steel Casting Beds
2.25.1.1
Steel Bed NI-153-160-40
2.25.1.2
Steel Bed NI-153-40-20
2.25.1.3
Steel Bed NI-129-57-25
2.25.1.4
Steel Bed NI-159-57-25
2.25.1.5
Gallery
2.25.2
Concrete Beds
2.25.3
Milling Machine for Concrete Beds
2.25.4
Wall Panel Installation Trolley
2.26
Milling Machine for Concrete Beds
2.27
Ancillary Equipment
2.27.1
Service Platform
2.27.2
Machine Transfer Trolley
2.27.3
Wedges and Barrels
2.27.4
Diamond Cutting Blade
2.27.5
Blindo Trolley Line
2.27.6
Supply Pillar with interlocked sockets
3.0
Concrete Elements
3.1
Hollow Core Slabs
3.1.1
Top 16 Advantages
3.1.2
Field Applications
3.1.3
Production systems available
3.1.3.1
Extruder System
3.1.3.1.1
2x600 mm wide
3.1.3.1.2
1200 mm wide
3.1.3.1.3
1250 mm wide
3.1.3.1.4
1500 mm wide
3.1.3.1.5
2400 mm wide
3.1.3.1.6
Wall Panels
3.1.3.2
Slipformer System
3.1.3.2.1
11 holes
3.1.3.2.2
7 holes
3.1.3.2.3
3 holes up to 1000 mm high
3.1.3.2.4
11 holes Wall Panels
3.1.3.2.5
11 holes Wall Panels with architectural finish
3.1.3.2.6
Grandstand Panels
3.1.3.3
Wet Casting System
3.1.3.3.1
9 holes
3.1.3.3.2
9 holes Wall Panels
3.2
Single Hole Beams
3.2.1
Element Dimensions
3.2.2
Gallery
3.3
Solid Slabs
3.3.1
Element Dimensions
3.3.2
Gallery
3.4
Inverted T-Beams
3.4.1
Element Dimensions
3.4.2
Marking
3.4.3
Compactation
3.4.4
High Production Rates
3.4.5
Special attributes
3.4.6
Gallery
3.5
Inverted I-Beams
3.5.1
Element Dimensions
3.5.2
Marking
3.5.3
Compactation
3.5.4
High Production Rates
3.5.5
Gallery
3.6
Vineyard Posts
3.6.1
Element Dimensions
3.6.2
Characteristics
3.6.3
Applications
3.6.4
Gallery
3.7
Lintels
3.7.1
Element Dimensions
3.7.2
Characteristics
3.7.3
Excellente Surface
3.7.4
Gallery
3.8
Foundation Piles
3.8.1
Element Dimensions
3.8.2
Characteristics
3.8.3
Gallery
3.9
Half Slabs
3.9.1
Element Dimensions
3.9.2
Characteristics
3.9.3
Gallery
3.10
Filigree Slabs
3.10.1
Element Dimensions
3.10.2
Applications
3.10.3
Gallery
3.11
Inverted double T-Slabs
3.11.1
Element Dimensions
3.11.2
Characteristics
3.11.3
Field Applications
3.11.4
Gallery
3.12
Inverted triple T-Slabs
3.12.1
Element Dimensions
3.12.2
Characteristics
3.12.3
Gallery
3.13
Inverted double T-Beams
3.13.1
Characteristics
3.13.2
Element Dimensions
3.13.3
Benefits of Inverted Double T-Beams
3.13.4
h 1000 Field Applications
3.13.5
Gallery
3.14
U Panels
3.14.1
Top Floor
3.14.2
Element Dimension Top Floor
3.14.3
Top Bridge
3.14.4
Elements Dimension Top Bridge
3.14.5
Characteristics
3.14.6
Gallery
3.15
Grandstand Panels
3.15.1
Element Dimensions
3.15.2
Gallery
4.0
Turnkey Solutions
4.1
Production Plant
4.1.1
Land
4.1.2
Stocking Area
4.1.3
Factory
4.1.4
Production beds
4.1.5
Civil works - Concrete abutments
4.1.6
Gallery
4.2
Manufacturing Process
4.2.1
Cleaning and Oiling of the production bed
4.2.2
Laying of the steel wires or strands
4.2.3
Stressing of the steel wires or strands
4.2.4
Concrete transport and distribution
4.2.5
Concrete Casting
4.2.6
Element marking
4.2.7
Fresh concrete working
4.2.8
Concrete Curing
4.2.9
Detensioning of the steel wires and strands
4.2.10
Element cutting
4.2.11
Transportation of the elements for stocking
4.3
Auxiliary Plant and Machinery
4.3.1
Batching plant
4.3.2
Concrete curing plant
4.3.3
Water treatment system
4.3.4
Electrical plant
4.3.5
Water plant
4.3.6
Compressed air plant
4.3.7
Testing laboratory
4.3.8
Weighbridge
4.3.9
Overhead mobile crane
4.3.10
Forklifts
4.3.11
Gallery
4.4
Raw Materials
4.4.1
Concrete and its components
4.4.1.1
Concrete Specifications
4.4.1.2
Aggregates
4.4.1.3
Cement
4.4.1.4
Water
4.4.1.5
Additives
4.4.1.6
Gallery
4.4.2
Prestressing wires
4.5
Production
4.5.1
Production organisation
4.5.2
Production times
5.0
Events & News
5.1
Events
5.2
News
5.2.1
TEST
5.2.2
Automatic cutting machines
5.2.3
NEW Automatic drilling machine
5.2.4
FINGO the most well-known hollow core producers
5.2.5
A brand new EVO2 extruder in Bella - Italy
6.0
Media Download
6.1
Press Release
6.2
Brochures
6.2.1
About us, 2022
6.2.2
Company
6.2.3
Machinery and Equipment
6.2.4
Extruder EVO
6.2.5
Extruder EVO2
6.2.6
Extruder NANO
6.2.7
Slipformer SF
6.2.8
Wet Casting WF
6.2.9
Concrete Elements
6.2.10
Hollow Core Slabs
6.2.11
Inverted T and I-Beams
6.2.12
Vineyard Posts and Lintels
6.2.13
Prestressed Slabs
6.2.14
Inverted Double T-Beams and Slabs
6.2.15
Turnkey Solutions
6.2.16
Global
6.3
Video
6.4
Advertising
6.4.1
2016 - The new EVO2 Extruder
6.4.2
2016 - The new EVO2 Extruder
6.4.3
2016 - Bauma Guide
6.4.4
2016 - Bauma Preview
6.4.5
2015 - More than just tailor made
6.4.6
2015 - Extruder
6.4.7
2015 - Slipformer
6.4.8
2015 - Wet Casting
6.4.9
2015 - Season’s Greetings
6.4.10
2014 - Why Nordimpianti
7.0
World-Wide
8.0
Contact
8.1
Headquarters
8.2
How to reach us
8.2.1
Car
8.2.2
Air
8.2.3
Bus
8.2.4
Train
8.2.5
Taxi
8.2.6
Hotels
8.3
Global offices
8.4
Feedback
9.0
Useful Links
9.1
Work with us
9.2
Controls Engineer
9.3
Accounts Assistant
9.4
Mechanical Engineer
9.5
Agent Wanted
9.6