Harnessing 3D printing tech for sustainable development
Africa should turn to high-skill manufacturing to aid sustainable growth, writes Hailemichael Teshome Demissie.
One of the most puzzling paradoxes of the much lauded recent African growth is its bizarre matrix of high growth and high unemployment.
The low impact on poverty reduction and unemployment of the otherwise impressive growth has in turn been attributed to the low contribution of the manufacturing sector. Manufacturing has stagnated and contracted while the service sector continues to grow at a strong rate, leaving economists with the task of pondering whether Africa is undergoing a premature de-industrialisation. 
Africa is expected to benefit from more manufacturing jobs due to China’s rising wages and transition to high-value, high-skill manufacturing.
“Africa’s position as a preferred destination for low-wage jobs from Asia is now being undermined by the advent of 3D printing technology.”
Hailemichael Teshome Demissie, African Centre for Technology Studies (ACTS), Kenya
But Africa’s chance to attract these jobs is likely to suffer setbacks as a result of the rapid rise of digital manufacturing, especially 3D printing.
The insourcing boom in the developed countries should be disquieting for developing countries awaiting their manufacturing moment: It is a trend marking the beginning of the reversal of the migration of jobs to low-wage regions.
President Obama celebrated the return of manufacturing jobs back to the United States from China and Mexico by hailing 3D printing technology as offering America the potential to resuscitate and revolutionise manufacturing. 
3D printing tech: description
3D printing technology, also known as rapid prototyping, additive or digital manufacturing, has been around at least for the last three decades.
However, it is only in the last five years that it has come to widespread use in the manufacturing sector. 3D printers turn a virtual digital design data in the computer into a three-dimensional tangible, solid physical object.
Various materials and processes are being used to print solid 3D objects. Plastic resins, metals, wood fibre, carbon fiber, construction waste, desert sand, human tissue and many other materials are used as feedstock for printing. New materials, methods and new combinations of materials and methods are being introduced and used to perfect the technology.
Initially, the technology was used as a niche activity in big manufacturing firms that mainly used the technology for developing prototypes. 3D printing technology is invariably described as disruptive. For example, in one survey involving respondents from industries and academic institutions, it came out as “the most disruptive technology” in the next three years. 
Surveys carried out by global accounting firms such as PwC and Deloitte have shown a similar result concerning the disruptive potential of 3D printing technology that could be on a level unseen before. 
3D printing tech’s impacts
Africa is certainly to be impacted by the disruptions 3D printing technology is set to trigger. Of the 100 million jobs expected to developing countries as a result of China’s transition to high-value, high-skill manufacturing, Africa is to land none or very few. The destination of these jobs remains unknown.
The continent’s position as a preferred destination for low-wage jobs from Asia is now being undermined by the advent of 3D printing technology, which can do manufacturing at a negligible cost, with little or no wage labour.
It is not another region with cheap labour that is thwarting Africa’s ambition to succeed China as the factory of the world. Rather, it is technology that promises to slash the cost of manufacturing to a “near zero marginal cost”. 
“The opportunity to turn the towns and countries of Africa into centres of high-tech manufacturing needs to be seized with no less vigour than that shown in the developed world.”
Hailemichael Teshome Demissie, African Centre for Technology Studies (ACTS), Kenya
The exploitation of cheap labour can no longer serve as the comparative advantage in the face of the relatively cheap, yet highly efficient technology that is radically overhauling the manufacturing sector around the globe.
Even in the scenario where Chinese factories relocate to Africa, it is questionable whether these factories will be competitive assuming that they will still have to incur considerable cost of labour.
Given the rapid obsolescence of conventional manufacturing models, it is also uncertain whether these factories will be sustainable in the long run and even in the near term.
What Africa should do
In order to remain economically competitive, Africa should accelerate the process of transitioning to high-value manufacturing by acquiring and developing capabilities in 3D printing technology. This transition cannot be realised by merely repeating what China has done by relocating Chinese plants to Africa.
Calestous Juma draws attention away from the advice advocating Africa’s succession of China to Africa’s emulation of Taiwan in the context of the rise of 3D printing technology. He argues that “the rise of 3D printing could do for Africa what semiconductors did for Taiwan in the 1960s.” 
The fate of manufacturing in Africa is increasingly tied to emerging technologies, particularly 3D printing technology, that The Economist labelled as “the third industrial revolution”. 
The uptake of 3D printing technology in Africa has been slow and the discussion about its relevance and potential for African development is rather muted. Africa needs to take advantage of the technology in due time, drawing lessons from the developed world’s engagement with the technology.
President Obama’s pledge to turn America’s ‘Rust Belt’ into a ‘Tech Belt’ deploying 3D printing technology is instructive for Africa too. The US government’s decision to open several 3D printing manufacturing hubs in a bid “to turn regions left behind by globalisation into global centres of high-tech jobs” is not only a precedent to emulate, but also a serious warning if Africa chooses to ignore it. 
African countries should consider nine recommendations for harnessing 3D printing technology for sustainable development (see Box below).
Box: Recommendations for Africa to use 3D printing tech for sustainable development
1. Initiate and foster trans- and interdisciplinary collaboration in the development of additive manufacturing or 3D design and printing technology in Africa.
2. Create the innovation ecosystem for 3D printing technology by bringing together funding agencies, academic institutions, governments, non-governmental agencies, entrepreneurs, industries and research institutions.
3. Support the design and adoption of local, national, regional and continental policies, regulatory frameworks, guidelines and funding strategies to facilitate the adoption of the technology.
4. Support the development of 3D printing curriculum and its integration in existing engineering, materials science or other curriculums or its offering as an interdisciplinary stand-alone course at undergraduate and postgraduate levels.
5. Undertake innovative high-quality and internationally competitive research in collaboration with major national and international centres and research programs to help strengthen research and maintain and raise Africa's research excellence in additive or digital manufacturing research.
6. Support workforce development and the development of expert networks, R&D infrastructures through human resource development and acquisition of software and hardware.
7. Initiate and support start-up and spin-off companies and foster entrepreneurship creating technology jobs in the making and servicing of both the hardware and software tools of 3D printing technology.
8. Draw resources and expertise from governmental and non-governmental organisations, academic institutions, industries, international and regional funding agencies into a cooperative endeavour to keep abreast of the latest advances in additive manufacturing.
9. Monitor and create awareness about the state of the technology, its potential and the disruptive impacts with regard to African economies, drawing attention on how the disruptive innovation can be turned into an opportunity that contributes to national and regional renewal of the manufacturing sector and, ultimately, to socio-economic development in general.
The opportunity to turn the towns and countries of Africa into centres of high-tech manufacturing needs to be seized with no less vigour than that shown in the developed world.
Hailemichael Teshome Demissie, PhD, is senior research fellow and program head, Inclusive Bioeconomy, African Centre for Technology Studies (ACTS), Nairobi, Kenya. He is also a member of the ACTS–KU (Kenyatta University) team tasked with the preparation for the establishment of the African Centre for Excellence in 3D Printing Technology. He can be reached at H.Demissie@acts-net.org
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Source: Science Dev Net