Company Active LTD

Company profile

Maher Limited

MAHER

Nickel Alloy Supplier, Alloy 718, , Alloy 725, Alloy 625, Alloy K500, Alloy 400, Alloy 286,

CRN
00508859
Founded
1952
Age
74

Overview

Legal name
MAHER LIMITED
Region
Unknown
Registered address
2 BRIGHTSIDE WAY
SHEFFIELD
ENGLAND
S9 2RQ
Insolvency history
No

Corporate ownership

Updated 06 Jun 2026 16:52

1 level 1 ultimate controller
1
Company Active LTD
Maher Limited
CRN 00508859
2
Direct and ultimate controller Active LTD

Company events

Reference milestones and recent Companies House filing stream events.

7 events
31 Mar
2027

Accounts due

Accounts Due

Next accounts due date

29 Aug
2026

Confirmation statement due

Confirmation Due

Next confirmation statement due date

03 Apr
2026

Termination Director Company With Name Termination Date

Officers

TM01 | Transaction MzUxNDMxMTcxMmFkaXF6a2N4

Published 03 Apr 2026 08:46

15 Aug
2025

Confirmation statement filed

Confirmation

Last confirmation statement made up date

30 Jun
2025

Accounts filed

Accounts

Last accounts made up date

16 Aug
2024

Confirmation Statement With No Updates

Confirmation-statement

CS01 | Transaction MzQzMjQ4NDE2NWFkaXF6a2N4

Published 16 Aug 2024 10:50

14 Jun
1952

Incorporated

Inception

Company registered at Companies House

Public funding

6 awards
First funded
2017
Funded years
2017, 2018, 2021, 2022, 2023
Age at first award
64 years

Projects

2023 BEIS-Funded Programmes

Continuous Melting and Atomisation of Titanium Alloys

1 Nov 2023 to 31 Oct 2025

Awarded
£66,056
Total cost £110,094

Phoenix Scientific Industries Ltd is joined by consortium partners BAE Systems Ltd, Maher Ltd and the University of Greenwich to deliver COLDMELT 2\. The project aligns with the technology enabling 'cross-cutting' focus area within the UK Aerospace Technology Strategy, 'Destination Zero'. AIRBUS Ltd, Spirit Aerosystems Ltd, Rolls-Royce PLC and GKN GKN Aer...

2022 BEIS-Funded Programmes

Landing Gear Industrial Breakthroughs (I-Break)

1 Apr 2022 to 30 Jun 2025

Awarded
£1,634,068
Total cost £2,723,446

Landing-Gear Industrial Breakthroughs "I-Break" will develop and manufacture major components with innovative techniques such as powder hot isostatic pressing, additive manufacture and composites. The Landing-Gear major components; main fitting, sliding piston and actuation are drivers of the aircraft key competitiveness factors; * Development time and co...

2021 BIS-Funded Programmes Lead participant

HIPNOTIC TRL6

1 Oct 2021 to 31 Mar 2023

Awarded
£420,293
Total cost £700,488

The project will take Powder Metallurgy Hot Isostatic Press (PM/HIP) through the commercialisation "valley of death" to complete Technology Readiness Levels (TRL) 4 through 6 critical process criteria, as set by AIRBUS. PM/HIP is a Near Net Shape technology and provides a method for manufacturing large complex designs, reduces wasted material by drastical...

2021 Collaborative R&D

INtelligent TrustEd SuppLy ChaIn (INTELI)

1 Jul 2021 to 30 Jun 2023

Awarded
£60,160
Total cost £100,267

INtelligent TrustEd SuppLy ChaIn (INTELI) establishes a new methodology of supply chain collaboration by providing an improved architecture for real-time visibility of operations data across the supply chain hierarchy, enabling dynamic forecasting and predictions, predictive/prescriptive analytics, compliance and supplier transactions.

2018 BIS-Funded Programmes

OptiComp (Wing Project)

1 Oct 2018 to 30 Sep 2023

Awarded
£117,533
Total cost £205,693

Optimised Composite Wings and Aerostructures (OptiComp) is a four year, ATI grant funded R&D project, scheduled to commence in July 2018. It is led by Bombardier, and includes participation and investment by the following consortium partners: Datum Tool Design Ltd, Loop Technology Ltd and Maher Ltd. The aim is to help ensure that Bombardier Belfast, and U...

2017 Collaborative R&D Lead participant

A Net-Shape, High-Productivity Fabrication Route that Utilises Low-Cost Tools to Produce High-Complexity Parts (NIFTY)

1 Feb 2017 to 31 Jan 2019

Awarded
£325,156
Total cost £541,926

A novel hot-isostatic pressing (HIP) process route will be developed to enable net-shape, high-integrity components to be produced from high-performance materials. An innovative manufacturing route will be developed to produce high-precision, low-cost tools, allowing the HIP process to produce complex-shape parts at lower-cost and higher throughput. An ad...

Product types

BEIS-Funded Programmes BIS-Funded Programmes Collaborative R&D