Sunday, August 16, 2020

Muzzle Law of Poland: An attack on the Independence of Judiciary

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Syed Ahmed Uzair

Article Title

Muzzle Law of Poland: An attack on the Independence of Judiciary

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Global Views 360

Publication Date

August 16, 2020

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Andrzej Duda, the President of Poland

Andrzej Duda, the President of Poland | Source: Wojciech Grabowski via Wikimedia

On February 4, 2020 the president of Poland, Andrzej Duda signed a law that prohibits the country’s judiciary to question the appointment of judges by the President and bars them from being involved in political activities. The law also prohibits judges to seek guidance from the EU Court of Justice on appointments by the National Council of Judiciary (NCJ) of Poland.

Supreme court President Malgorzata Gersdorf | Source: Adrian Grycuk via Wikimedia

Opposition parties condemned the law and Supreme Court president Malgorzata Gersdorf termed it as “Muzzle Law”.

In December 2019, the Sejm, the lower house of the Polish parliament passed the bill that would penalize judges who criticize the judicial reforms of the ruling Law and Justice party. It was sent back by the upper house for further discussion and a vote. However Sejm, using its superior power, enacted the bill, which the president signed on February 4, 2020, making it a law in the country.

The SC of Poland had earlier ruled on December 5, 2019 that the NCJ is not an independent body. Again on January 23, 2020 the SC in a ruling termed the appointment of the judges by the NCJ as illegal stating their apprehension that they may not be free from political influence. The Justice Ministry, quite predictably termed the SC verdict as a “serious violation of the law”.

people rallying on road near buildings
Protests against Poland’s judicial reform | Source: Külli Kittus via Unsplash

The law has drawn criticism from lawmakers as well as legal scholars across Europe and the European Union. On 11th January 2020, hundreds of judges from across Europe marched in Warsaw to protest against the enacting of the controversial law. Thousands of lawyers and residents joined in with many waving Polish and EU flags as they marched from the SC to the parliament. "We have come here to support the Polish judges but we are not politicians. We are here about the rule of law, not about politics." John MacMenamin, an Irish Supreme Court judge, told reporters.

In February 2020, a group of 44 ICJ Commissioners and Honorary Members along with senior judges, lawyers and legal scholars from across the world released a statement in which they said, “it is clear that the separation of powers, the independence of the judiciary, and the capacity of Polish judges to uphold the rule of law are now severely compromised. Judges’ freedom of expression, association and assembly are under immediate threat.”

Ever since it came to power in 2015, The Law and Justice Party of Poland, has been working towards dismantling the independence of the judiciary, terming it  judicial reforms. There has been opposition to these actions by the opposition parties, judicial bodies as well as European Union.

EU flags at the European Commission Berlaymont building Brussels, Belgium | Source: Guillaume Périgois via Unsplash

Late in 2017, the European Union had initiated what it called “unprecedented proceedings” against Poland. The move was a response to the worrying reforms in the judiciary that were being enforced by the government. The EU had stated back then that these “systematic threats” could see Poland losing its EU voting rights.

On 29th April, 2020, The EU started a new legal case against the nationalist Polish government in response to the adoption of the “muzzle law”. The EU further added that it was giving Poland two months to address the issues pertaining to the law. “This is a European issue because Polish courts apply European law. Judges from other countries must trust that Polish judges act independently. This mutual trust is the foundation of our single market,” said Vera Jourova, the Czech member of the executive Commission who is responsible for upholding the EU’s democratic values at a news conference.

A few European legal scholars have warned that the developments in Poland are a threat to the entire legal system of the EU. Despite all the criticism and pressure from the EU, the Polish government is yet to respond meaningfully to the growing concerns over the assault on Poland’s judicial system and its potential EU exit.

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July 19, 2021 11:59 AM

3D Printing: The direction to go for the Indian Defense and Aerospace Industries

3D printing is the next big game-changer on the technological front, almost a revolution if you will. 3D printing, also known as additive manufacturing, is a process of creating three-dimensional objects by layering two-dimensional cross sections on top of one another. The two-dimensional cross sections are computer-designed and rendered, which makes it all the more advanced. From Aerospace to Defense and Medical to Automotive, products manufactured via 3D printing are spreading their reach in the markets quite swiftly. This article will take a look at how 3D printing is beneficial and how the technology can transform the Indian and Defense and Aerospace sectors once utilized to its full potential.

Additive manufacturing has the power to unlock a wide range of opportunities. It uses a 3D printer to create a layer-by-layer “addition” of material which is digitally constructed. Different types of materials which are currently being used for the same are metals, ceramics, special plastics, synthetic resins, and etc. 3D printing not only reduces the cost of production of various components but also gives the power to manufacture locally with design flexibility. The technology significantly speeds the process of designing; this is mainly because there is no requirement of tools. Traditional manufacturing usually takes months to either acquire necessary tools and further produce parts and components or import components from various places. However, once 3D printers are acquired, which they might be costly in themselves, they would ensure a smoother production process. Hence, due to the combination of localized manufacturing and no tools, tailor-made designs can be produced to match the necessities of various industries.  

https://upload.wikimedia.org/wikipedia/commons/thumb/7/75/MakerBot_ThingOMatic_Bre_Pettis.jpg/220px-MakerBot_ThingOMatic_Bre_Pettis.jpg
Figure 2: A typical 3D printer. Source: Bre Pettis via Flickr

India is gradually growing with respect to its utilization of 3D printing technology. In 2014, the 3D printers market was at an early stage with just 200-500 combined workforce of engineers, designers and sales representatives. Currently, start-ups are springing up in places like Bangalore, Chennai, Mumbai, Visakhapatnam, etc and they are producing essential parts for sectors like the Indian Navy, Air Force, ISRO and the HAL.  India’s 3D printing market is projected to reach $79 million by the end of 2021, while the global market is at around $15.8 billion, which suggests that India has a lot of catching up to do.

Applications in the Aerospace and Defense Industry

The Aerospace and Defense Industries are keen to pursue additive manufacturing, mainly because of benefits such as weight reduction, cost cutting and to meet their highly specific requirements. The additive process uses less material to manufacture components and also ensures minimal waste of material. Overall reduced weightage means that less fuel would be used in aircrafts and hence result in better environmental compatibility. Let’s examine a few instances in India where 3D printing startups have assisted and provided the defense and aerospace sectors with unique solutions.

Recently, in 2020, the Centre-run defense company Hindustan Aeronautics Limited (HAL) had signed a MoU (Memorandum of Understanding) with Wipro 3D, the metal additive manufacturing branch of Wipro Infrastructure Engineering. The initiative would primarily focus on the design, development, testing, manufacturing, and repairing of aerospace components using metal additive technology. HAL is using 3D printing to manufacture engine components, although it also provides support to helicopter and rotary wing products. HAL also provides products to the Indian Army, Air Force, Navy, and Coast Guard. Speaking about this collaboration, Shekhar Shrivastava, CEO of the Bangalore division of HAL, said, “This initiative between HAL and Wipro 3D will create a unique synergy of capabilities that can accelerate the adoption of metal additive manufacturing in aerospace in India. Qualification of parts for aerospace is challenging as it would require prove out and extensive testing followed by certification by regulatory authorities which may also include flight testing."

Down south, Karnataka, which produces more than 65 percent of India’s aerospace-related components and exports, has taken a number of initiatives to promote additive manufacturing by setting up 3D printing clusters and sponsoring 3D printing startups. For example, through its flagship programme ‘Start Up Karnataka’, the State has given grants to ‘Deltasys E-Forming’, a Belgaum based start-up, to develop hybrid composite 3D printers. These initiatives are quite appropriate since two-thirds of India’s aircraft and helicopter manufacturing for the defense takes place in Karnataka, and 3D printing would revolutionize these processes quite rapidly.

On the other coast, Chennai-based 3D printing startup, Fabheads Automation, was established in 2015 by an ISRO engineer turned entrepreneur Dhinesh Kanagaraj. The deep tech startup designs and develops high-end carbon fibre helicopter blades for the Indian Air Force. Traditionally, carbon fibre parts are fabricated by laborious manual processes with a lot of fabrication time and money spent. Dhinesh also observed a lot of material wastage when he worked on carbon fibres at ISRO.  Based on this, Fabheads has designed an automated 3D printer series to eliminate material waste and also improve efficiency of production of carbon fibre. Sectors like the DRDO are currently approaching the company given these innovative methods of production.

3D Printing Saves the Day for the Indian Navy

Further, the Indian Navy has partnered with ‘think3D’, a Hyderabad-based 3D printing start-up, to produce spare components via additive manufacturing for both on and off-shore set-ups. The Indian Navy uses a lot of machinery on its ships which are imported from other countries and are quite old.  Whenever a component gets damaged, it is hard to replace it either because there is no availability of the part or because there is significant delay before a part is received. This often proved to be costly for the Navy since the machines would have to be kept idle before a spare part was replaced along with the fact that procurement of the parts was no less expensive.

This is where think3D had stepped in and supplied 3D printed parts to the Indian Navy, which were successfully tested and incorporated into its machinery. An example of such a 3D printed part, which proved to be of crucial help, is that of a centrifugal pump impeller- a key component for a ship’s operation.

https://3dprintingindustry.com/wp-content/uploads/2020/04/4.jpg
Figure 3: An original impeller (left) vs. a 3D printed impeller (right). Image source: think3D

The impeller is a rotating component and it is very important for a ship as it transfers energy from the motor to a fluid that needs to be pumped by accelerating the fluid outwards from the centre of rotation.  On ships, this component is used to import seawater into various parts of the ship for regular use of the crew. These impellers are required to rotate at high speeds for long durations and need to be very carefully designed. 3D printing was the best solution to replace these parts, given the speed of production and lower expenses.

Given all the benefits of 3D printing, it is high time for the Indian market to expand its 3D printing industry and utilize it to its full potential. There are many other instances like the one of the impeller in the Aerospace and Defense industries which can easily be solved using 3D printing.

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