CNC Component Manufacturer

ALNO CNC Machining manufactures components for many industries including fluid transfer, production, processing, food production, resource extraction, automotive and telecommunications.

Our team machine a range of materials including Steel, beryllium-copper, Monel, Inconel, titanium, Hiduron, Toughmet, tungsten, tool-steels and many other metals as well as Peek and other engineering grade plastics, our company specializes in high quality custom machining.

Some of ALNO CNC Machining capabilities include custom design of prototypes, tooling and mold making, and we excel at large production runs. In addition to doing business in all of the from Sydney to the Hunter valley our team also export a small volume of automotive product each year to Japan, UK, Spain, New Zealand and Germany.

ALNO prides itself on providing customers with high quality CNC machined parts with a quick turnaround.

Whether you need functional rapid prototypes or production CNC machining, the team at ALNO help you every step of the way.

Our skilled machinists offer the highest in quality in terms of custom machined components our team can specialize in the development of jigs, fixture and work holding solutions we can make the manufacturing process to suit your application.

Our manual machine shop contains lathes, Grinders, EDMs and variety of drill presses to machine any style of custom forging or component. Multiple lathes and mills in our CNC machine shop – combined with specialized inverts and drill bits – permit faster, more precise machining and drilling.

ALNO CNC machining has some of the most skilled and experience CNC and manual machine operators in the business. We apply our expertise in machining, drilling and milling super alloys to all types of standard and nonstandard of machining jobs.

CNC machining is ideal when your product design calls for high tolerance levels and when you must have your parts manufactured in specific materials. Unlike the materials used in additive fabrication processes, we provide you with actual production grade materials so you can be sure that your part will function as needed or can be tested using FEA tools.

ALNO CNC Machining 

EDM  |  Precision Machining | CNC Machining | Food Grade Machining

Precision machining and high quality design solutions

ALNO CNC Machining offer precision machining and high quality design solutions.

From initial concept development then functional prototypes to high quantity production parts our team have the tools to manager your product development.

We are committed to perfection, having 25+ years of industry experience combined with our 3-D modelling tools combined with our CNC Machine tools ensure that you are provided with 1st class quality parts.

CNC Machining

Our technical staff at ALNO CNC Machining can assist you in finding the right approach and cost effective solution for your production needs not only for the medium term yet the life cycle of your product.

We are constantly keeping up with the “latest and greatest” tooling, cutting inserts and holding fixtures to keep the cycle times to a minimum, keeping the cost down for our customers.

Our machinists have extensive machine programming and set up experience, with our senior machinist / Design and owner having 25+ years experience in the industry, combined with our CNC manufacturing capabilities, we are the place for your large production runs.

Whether you’re a large company looking to have your new parts produced, or looking for better quality and pricing, or an entrepreneur / inventor looking for your first production run, we will share the excitement and would take pride in helping you accomplish your goal furthermore exceeding your expectations.

www.cnc-machining.com.au

 

Machining  |  General Engineering  |  Food Grade Machining  |  Toolmaking

CNC Machinery  |  Precision Machinery

Economic Benefits of CNC Machining

CNC Machining versus conventional machining 

Conventional machining requires a skilled operator to manipulate the machine tool handwheels to produce a determined component. The Operator has to examine the drawing many times, during the operation, to determine the dimensions that apply and must decide by how much each handwheel must be turned to produce the desired result.            

Many conventional machine tools have speeds and feeds governed by mechanical design features such as fixed-speed gearboxes. Thus the choice of feed or speed is a compromise depending on the gear ratios built into the machine tool.

By contrast, CNC machine offer complete control of all axes, under optimum cutting conditions. Extremely short set-up times are possible since standard tooling is all that is required. The good accuracy and repeat ability of the components produced by CNC machines enables a greater uniformity of production. The quality of finished job is no longer under the control of the operator but under the control of a computer-run part program. 

Adopting CNC

CNC provides for an automated approach to manufacturing. To change from one type of component to another requires only a minimum amount of set-up time and the provision of a part program. The main reasons to adopting CNC can be listed as follows:

·         CNC provides flexible automation, adaptable to many differing requirements, and changeovers from one job to another are rapid.

·         The Investment of time in producing part programs can be realised many times over since repeat orders require no additional work.

·         CNC offers reduced downtime, early production start-up, uniformity of production, minimum machining times, and less scrap and re-work.

·         CNC can reduce labor costs.

Drawback of CNC

The biggest single limitation is probably the initial high capital cost of the equipment itself and its sub sequence installation. CNC equipment is also high technology equipment and will require maintenance of the different nature to that conventional machine tool.

The introduction of CNC machine will inevitably lead to the loss of existing conventional machines and their operators. Resistance to change may further hamper the introduction of CNC. Planned alternatives for those members of the workforce unable to make the transition into CNC operation must be carefully considered. 

http://cnc-machining.com.au/

CNC Machining | Precision Machining

CNC Machining

CNC Machining

Numerical control is the automation of machine tools that are operated by precisely programmed commands encoded on a storage medium, as opposed to controlled manually via hand wheels or levers, or mechanically automated via cams alone. Most NC today is computer numerical control, in which computers play an integral part of the control.

In modern CNC systems, end-to-end component design is highly automated and has moved on from using computer-aided design and computer-aided manufacturing programs. Today the most advanced companies like ALNO Product Services use 3-D parametric modelling tools to produce CNC and or NC data

These programs produce a computer file that is interpreted to extract the commands needed to operate a particular machine via a post processor, and then loaded into the CNC machines for production.

Since any particular component might require the use of a number of different types of cutting or forming tools. Modern machines often combine multiple machine tools into a single "cell". Therefore optimizing the manufacturing process

In other installations, a number of different machines are used with an external controller and human or robotic operators that move the component from machine to machine.

In either case, the series of steps needed to produce any part is highly automated and produces a part that closely matches the original 3-D parametric model or virtual design.

For more information about CNC machining contact ALNO Product Services today

www.alnoproductservices.com.au

CNC Machines | ALNO Product Services | Toolmaking | Precision Machining