Paras Defence

Flow Formed Tubes

An advanced, cold-forming process is used to manufacture dimensionally precise, round, seamless, hollow components. We offer the largest manufacturing facilities for flow-formed tubes with state-of-the-art in-house flow-forming machines. We can undertake complex tube shapes and manufacture precision flow-formed tubes for high-pressure ballistic applications. We manufacture tubes using all metals. Our satisfied customers come from some of the most demanding military, nuclear, aerospace, and industrial markets. They appreciate the fact that the flow-forming process can be a cost-effective alternative to conventional manufacturing practices.

Methods

Forward Flow Forming

Forward flow forming is used for components with one closed or partially closed end, such as a closed bottom or partially closed cylinder. Once the preform is inserted over the mandrel, its inner bottom is locked against the tip of the mandrel using hydraulic force from the tail stock. As the mandrel and preform rotate, the carriage is made to travel in a right-to-left direction. The rollers apply force to the outside diameter of the preform, and there is a precalculated amount of wall reduction. As the wall is thinned and the outer diameter is reduced in size by the combination of controlled radial and axial forces, the finished component takes shape to the right of the rollers. The balance of a flow-formed material moves ahead and to the left of the rollers.

Reverse Flow Forming

Reverse Flow forming is used to produce a component with two open (unrestricted) ends, such as a tube. Once the preform is placed on the mandrel, it is pushed to the left side against the drive ring at the end of the mandrel. Like forward Flow forming, the carriage also moves in a right-to-left direction. As the axial thrust of the rollers applies force to the right of the preform, the metal is pushed into and entrapped by a series of serrations on the face of the drive ring. This assures the necessary rotational drive of the preform during the process cycle. With the carriage travelling left, the flow-formed metal moves to the right, under, and in the opposite direction of the rollers.

Shear Flow Forming

Shear Flow forming is used to form conical, radial, parabolic, or ogival geometries. The preforms are typically in the shape of circular discs. With the preform held firmly against the nose of the mandrel by hydraulic force from the tailstock or by other mechanical means, the carriage is made to move right to left. The rollers plastically deform (“shear”) and flow the available metal against the mandrel. Shear forming can be described as a combination of metal spinning and forward flow forming.

Benefits

Precision Flow forming

Precision Flow forming is capable of dimensional accuracy well beyond other forming methods. Since flow-forming tooling is subject to little or no wear, the CNC-controlled process offers consistent and repeatable accuracy from part to part and lot to lot.

Precision

The all-around dimensional controls for diameters and walls offered by precision flow forming will reduce or eliminate your need for secondary turning, grinding, and honing operations. The high degree of roundness, straightness, and concentricity achievable by our flow-forming process will often reduce or eliminate the necessity for straightening and balancing your finished component. The very fine surface finishes generated by flow forming on the inner and outer diameters will, in most cases, also void your requirement for honing and/or polishing.

Thin walls

Precision flow forming can generate economically and without difficulty very thin and precise wall thicknesses, regardless of the diameter size of the component. If you have had to contend with the difficulties and costs of managing the deflection of a thin metal body under turning or grinding operations, you will come to greatly appreciate our precision flow-forming process.

Varied Walls

Unlike any other type of forming process (i.e., extruding, forging, impact extruding, deep drawing, pilgering, drawing over mandrel, etc.), flow forming can vary the wall thickness of a component at any place and as many times as desired along the length of the flow formed component without additional cost.

Hardened Metals

Flow forming offers the unique possibility of forming to size a pre-hardened workpiece, thus eliminating the difficulties and high costs associated with the final machining, grinding, and honing of a hardened and distorted hollow component. Our precision flow-forming method of manufacturing allows us to achieve high dimensional accuracy and, at the same time, guarantee conformance to your required mechanical properties right off the flow-forming machine.

Grain Structure

As a result of the cold work (strain hardening) that occurs during the process cycle, a flow-formed component will have considerably higher mechanical properties than the ones of the starting material. Typically, the preform material is plastically deformed with wall reductions in excess of 75% of the starting wall thickness, causing a substantial refinement of the grain structure and a total realignment of the grains’ microstructure in a very uniform, axial direction. The greater the wall reduction, the finer the grain’s microstructure in the finished component. If necessary, the grain structure can be recrystallized by a post-forming annealing cycle.

Crystallographic Texture

During the flow-forming cycle, all the crystals that form the starting grain structure will be displaced and realigned. The overall orientation of these crystals is known as ”texture.” Nearly all mechanical properties are influenced by the metal’s texture. In a flow-formed component, the overall texture is always uniformly oriented. For example, in the case of Hexagonal Closed Packed (HCP) materials such as Titanium and Zirconium, their flow-formed crystals will have radially oriented basal planes. This condition increases the biaxial strength of the metal, effectively increasing the circumferential strength. The flow-formed crystallographic texture can be further intensified by a post-flow-forming annealing cycle. On a micro level, the annealing will recrystallize the grain structure, while on an atomic level, the texturing effect will be magnified.

Metal Properties

Flow forming is a cold working process which, through the strain hardening of the base metal, substantially increases the yield and tensile strengths of the formed material. Certain customers choose to take advantage of the improvement in mechanical properties by effectively designing thinner walls for lighter components. Others prefer post-forming stress-relieving or solution annealing of the flow-formed component to remove residual stresses. In other cases, the flow-formed component will be heat-treated or aged to alter the levels of achieved strength, hardness, and ductility to meet specification requirements.

Seamless

One major benefit offered by flow forming is its seamless construction. Quite often, we are also able to integrate more than one previously separate component into the same seamless flow-forming structure.

Savings

A seamless component will eliminate manufacturing problems associated with welding, such as heat-affected zones, part distortion, weld porosity, and failures, as well as the inherent costs of the weld, its radiography, and general testing. Elimination of all the above should be factored into the cost savings when comparing the utilization of a seamless flow-formed component.

Precision Flow forming is a chipless, cold-forming process capable of forming high-strength and hard-to-form metals to the desired geometry with tight dimensional controls throughout. With the ever-increasing cost of metal, many customers have come to greatly appreciate our ability to flow form to net shape.

No Waste

We start with a short, thick preform and typically flow form it four to six times its starting length. Material waste and labour costs are minimal. If your program is burdened by the costs and waste associated with gun drilling/trepanning of solids, and/or the machining of extrusions, you are a good candidate for flow forming.

Net Shape

In almost all cases, we can flow-form to net shape, maximizing material utilization while eliminating post-forming machining.

Seamless

Our process is seamless. At times, we can also integrate more than one of your components into the same flow-formed component. The cost of welding, related problems, and necessary testing are all eliminated.

Hardened Metals

With flow forming, we can form your component from pre-hardened metal to your specified mechanical properties. If this approach is feasible for your part, you will eliminate the high costs of finish-machining and/or grinding a most likely heat-distorted component to its final accuracy.

Flanges

We can eliminate your costs of manufacturing, circumferential welding, and related testing of end flanges or stub ends by integrating them as part of the seamless flow-formed component.

Geometries

Technical Consulting

Design and development of workpieces based on forming technologies.
Maintenance, repair and complete reconditioning of all types of spinning and flow forming Machines.
Trading of used spinning and flow forming machines.
Design, manufacturing and installation of forming machines.
General Contracting.
Technical Consulting and Engineering.

Active Array Radar Cooling Assemblies

We are exclusive manufacturers of one of its kind Aluminium to Aluminium VacuumBrazed Cold Plates. These cold plates, assembled as a complex cooling assembly, offer efficient cooling for the most challenging heat removal required in Defence System.

Titanium Manufacturing

We handle complex Titanium Fabrication, Machining & Assemblies, with most of the underwater Titanium hardware used by Indian Navy being supplied by us. We can undertake challenging manufacturing work in Titanium & offer World-Class Quality & the Fastest Delivery.

Special Metal Manufacturing

We are at Paras Defence manufacture special metals such as stainless steel, aluminium, titanium that requires extensive knowledge and years of experience to meet critical requirement and we offer customised solutions as many types of metals can be manipulated to fit particular specifications since last 40 years which are used in aircraft, ships and spacecraft etc.

Heavy Structures

Paras Defence has been in the business of manufacturing heavy structures for over 3 decades. High-quality manufacturing and military-grade surface treatment make us one of the most preferred Heavy engineering companies in the defence sector.Our heavy structures are integrated with automation designed and developed by excellent automation experts of paras. Dynamic platforms with high positional accuracy and 3-D movement under large static and dynamic load have been our expertise.Vast manufacturing infrastructure allows us to undertake large size projects, which can be executed in the shortest timelines by our highly experienced team.

Special Purpose Machines

Paras Defence is one of the very few industries in the defence sector which has the capabilities to service/maintain and refurbish almost all the special purpose machines used by them. This capability over the years has given us all-round knowledge of designing complex special purpose machines involving precision hydraulics, high-performance pneumatics, complex control algorithms and integration.We have one of the best brains to handle automation, hydraulics and integration, and they have been instrumental in realising very complex machines like flow forming machines etc.

MIL Grade Racks & Cabinets

Core Rack Solutions for Integrated Systems

The cRack Series comprises of all Aluminum Rugged Racks viz 19” Std. or Customised Rack solutions to accommodate various systems for an integrated solution. Standard 19” Racks are the essential support systems for the Telecom, Networking, Medical, IT and other industries. cRack Series offers outstanding performance for Military and Mission Critical applications and has been deployed in many prestigious and successful Defense Projects of India.

The non-standard rack is intended for customized usage. These are also constructed from customized Aluminium extruded & welded framework. However, the custom integration equipments decide the size and shape of these racks.

Features:

Constructed from Aluminium extruded section frames
Aluminium covers for sides, top and bottom
Slide mounting arrangements
Guide bush arrangement on rear side
Cable retracting mechanism for LRUs
Heavy Duty Lifting hooks
Efficient Thermal Management by Forced Air Cooling
Provision to mount shock mounts on base and rear
Complex and accurate internal cabling
Conformance to JSS 5555 standards for shock and vibration

Applications:

Mobile Communications, Industrial Data Centers, Military Communication Systems, Mission CriticalApplications

More Products

Rugged Tri-Pods & Quadri-Pods

Paras Defence designs and manufactures Tripods & Quadripods for industrial & military applications. Built using proprietary aluminium extrusions, the card cage design offers high structural rigidity. The efficient airflow design of the cCage Series ensures unparalleled performance from high-end vertical board electronics.