https://www.ft.com/content/808c277a-6b53-11e6-a0b1-d87a9fea034f Myanmar Mystery Myanmar mines shake up world tin market Pits near Chinese border highlight resources hidden during decades of isolation and conflict AUGUST 24, 2016 by: Michael Peel, Bangkok Regional Correspondent, and Henry Sanderson in London Mysterious mines in Myanmar have become important to the world tin market in a sign of how the country’s opening-up is revealing resources obscured during decades of military dictatorship and internal conflict. The Southeast Asian state has caused a stir in metal-rich countries from Peru to Indonesia thanks to its opencast mines in the Wa region near the Chinese border that has been ruled by an armed ethnic party for more than 25 years. The region is controlled by the United Wa State party, which has an armed wing and has long had close political and economic ties with China. Myanmar’s re-emergence as a big producer of the metal after a break of more than six decades has been branded by one tin market analysis as a “black swan” event. Over the past four years, Myanmar’s return has depressed the tin markets, but this year prices have risen as traders anticipate the supply could peak. Myanmar’s production of initially “astonishingly high” grade ore has surged more than 10-fold in four years in Wa, according to the International Tin Research Institute. The country now satisfies about a third of China’s demand for the metal and 10 per cent of global supply. In the first half of the year exports of tin to China surged by more than 80 per cent. The metal is an ingredient of the solder widely used by the electronics industry. Tin is unlikely to be the last resource surprise as this mineral-rich country presses on with reforms that began when the military dictatorship stepped down in 2011 after almost half a century of isolationist rule. The future of billions of dollars of commodity wealth, some of it in conflict zones, will also be a critical part of peace talks due to be launched this week by Aung San Suu Kyi’s fledgling civilian-led government.
63
Embed
ALL ABOUT WA STATE TIN MINE IN MYANMAR DATA COLLECTION BY MYO AUNG-EX-EXPLORATION GEOLOGIST THAILAND
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
world tin market Pits near Chinese border highlight resources hidden during decades of isolation and conflict AUGUST 24, 2016
by: Michael Peel, Bangkok Regional Correspondent, and Henry Sanderson in London
Mysterious mines in Myanmar have become important to the world tin market in a sign of how the country’s opening-up is revealing resources obscured during decades of military dictatorship and internal conflict.
The Southeast Asian state has caused a stir in metal-rich countries from Peru to Indonesia thanks to its opencast mines in the Wa region near the Chinese border that has been ruled by an armed ethnic party for more than 25 years.
The region is controlled by the United Wa State party, which has an armed wing and has long had close political and economic ties with China.
Myanmar’s re-emergence as a big producer of the metal after a break of more than six decades has been branded by one tin market analysis as a “black swan” event.
Over the past four years, Myanmar’s return has depressed the tin markets, but this year prices have risen as traders anticipate the supply could peak.
Myanmar’s production of initially “astonishingly high” grade ore has surged more than 10-fold in four years in Wa, according to the International Tin Research Institute. The country now satisfies about a third of China’s demand for the metal and 10 per cent of global supply. In the first half of the year exports of tin to China surged by more than 80 per cent. The metal is an ingredient of the solder widely used by the electronics industry.
Tin is unlikely to be the last resource surprise as this mineral-rich country presses on with reforms that began when the military dictatorship stepped down in 2011 after almost half a century of isolationist rule. The future of billions of dollars of commodity wealth, some of it in conflict zones, will also be a critical part of peace talks due to be launched this week by Aung San Suu Kyi’s fledgling civilian-led government.
Win Htein, an Aung San Suu Kyi confidant, said of the mines at Man Maw in the Wa region: “Even for us, it’s still a mystery. They are quiet and very wise — and they keep their movements low-key.”
The tin story is just one example of how Myanmar’s international reintegration is uncovering resources that one long-time observer of the country says were previously “not known at all — or not known except to a select few”.
Uncontrolled exploitation by both Myanmar’s regional armed groups and the former ruling military of jade and other assets has driven war, environmental destruction and large-scale tax evasion.
The future of natural boons ranging from tin to timber will loom large at the peace conference starting on August 31 in Naypyidaw, the capital, which is billed as a first step towards ending Myanmar’s more than 60 years of on-off internal conflict.
“If the wealth of the country is going to be equitably distributed, it’s necessary these resource revenues are captured,” said Richard Horsey, a Yangon-based analyst. “They are a large part of the reason why armed groups are sustainable.”
There are now signs that tin production could be peaking. That twist could cut revenues for the Wa militia and further boost the rally in the world tin price that has seen it notch an 18-month-high of $18,770 a tonne.
< >
A peak in Myanmar’s production could help push the global tin market into a deficit in a few years, as production has also declined in other producing countries such as Peru and the Democratic Republic of Congo. In Indonesia, a rule banning the export of unprocessed materials has also hurt exports.
Robin Bhar, an analyst at Société Générale, said he expects the market to move into a deficit of 5,000 tonnes next year. That could leave China short of supply, he said.
Myanmar production is likely to level off because the mainly open pit mining in Wa has now moved underground, where the tin content of the ore is lower, the ITRI said. But Cui Lin, an ITRI analyst who has visited the mines, warned
In 2014, Myanmar (Burma) confounded industry analysts by emerging to become the World's third biggest tin producer, experiencing a 5-year tin production increase of ca. 4900%. This surprise emergence of Myanmar as a major tin producer is a possible Black Swan event that potentially has significant repercussions both for the future of global tin production, and for the economic development of Myanmar. This is a disruptive event that has likely contributed to a substantial drop in tin prices in 2015. The Myanmar production increase came from a new mine site in Wa State, and not from the traditional tin-producing areas in the South. We discuss tin mining and potential in Myanmar and consider whether it could provide a foundation for the economic rehabilitation of the country.
The Wa State is an autonomous state in the northern Shan States, one that is not recognized by either the Myanmar Government nor international bodies. It is currently subsumed under the Wa Special Region No. 2. Fig. 7 shows a map of Wa State. Wa State is occupied and administered by the United Wa State Army (UWSA), and has an estimated population of ca. 560,000. The Wa people are ethnic Chinese, the working language is Chinese, and the Renminbi is used as a currency. The UWSA effectively runs Wa as an independent state, with its own foreign policy, and with direct business dealings with China. As such, it is probable that most revenues from the tin mining activities go straight to the Wa government, largely by-passing the central Myanmar government. The Man Maw Mine site is thought to lie ca. 90 km from Pang Kham, the capital of Wa State (Fig. 7). It has been estimated that the mine site area has an extent of some 100 km2 , making it a significant mine within Myanmar (Cui Lin, Personal communication, 2015). Although a single mining area, it is worked by a number of small mining companies. The deposit is reported to be exclusively primary ore, grading 1–2% for the open pit operations and up to 40% for the underground. Annual production has been estimated to reach nearly 30,000 t of contained tin. Most of this production goes over the border into China, either as crushed ore (typically grading at 10% Sn), or as semi-processed concentrate (20–25% Sn). The future of tin production at Man Maw remains uncertain. It is believed that tin mining in Wa State became active in 2010, but no official figures are available. There is little geological data available, and consequently neither the remaining reserves, nor the mine life expectancy, are known. Local facilities remain poor and roads are in a bad condition, however it is reported that some repair work is being undertaken, and that a new power station is
The Impacts of Kunming-Bangkok expressway: Logistics Channel Analysis
Poon Thiengburanathum
Dept. of Civil Engineering, Chiang Mai University
Ruth Banomyong Faculty of Commerce & Accountancy, Thammasat University
Apichat Sopadang
Dept. of Industrial Engineering, Chiang Mai University
Abstract
The Kunming-Bangkok expressway is expected as an important infrastructure in this region. This logistics infrastructure functions as a land bridge between China and the ASEAN countries, particularly in Thailand. Once the project is fully functional, significant impacts can be anticipated, such as shifts of transportation mode, short and long term of economic and cultural changes. A schematic model is presented in this paper as a schematic decision making tools for evaluating transportation mode and route selection. This model is grounded on Stochastic and Analytical Heretical Process (AHP) techniques. The dimensions of cost, time, and reliability of service are integrated as key performance indices of the logistics system. Each business type has different kinds of requirements. The results show this expressway will be a major logistics channel between Thailand and the Southern part of China.
Introduction
Historically, the flows between Kunming and Bangkok have been recognized. However, traveling on the Mekong river was very rare at that time. People rather connect one and other by sea or air travels. The highland geology and political differences are the main obstructions (Berman, 1989). Improving the logistics infrastructure between these two cities has been a dream of many people in this region for a longtime. The Kunming-Bangkok expressway is expected to be the first importance jigsaw of logistics breakthrough.
Figure 1: Overall Asian Highway routes (United Nation, 2001)
The Kunming-Bangkok expressway involves four counties, such as the People's Republic of China, Lao People's Democratic Republic, Myanmar, Thailand. It stretches south from Kunming to Jinghong and traverse the border at Jinghong into Laos. It crosses through highlands in southern Yunnan and Laos before entering Thailand, in which it continues southward until it reaches Bangkok.
This expressway is a part of Asian Highway project (initiated in 1959, that has a main goal for the integrated Asian Land) (United Nation, 2001). Asian Development Bank (ADB) plays a main role in initiating and supporting this project in several forms (e.g. loan offering and cross-border transport agreement coordinating).
It is expected to open in year 2008. The significant impacts can be anticipated, particularly in transportation mode and route. Therefore, this expressway is a part of whole scheme of globalization. This study reviews the basic characteristics of these infrastructures and also develops a schematic model to approximate behaviors of goods flows via different perspectives of demand types. “The Kunming-Bangkok expressway will create major change in this region in both economic and social paradigms” is set as a hypothesis of this study.
To connect Kunming and Bangkok within the continent, the Kunming-Bangkok routes are necessary. The Kunming-Bangkok expressway is referred as the last of the three routes that enables this integration. There are the follows: (Figure 2 and 3)
Figure 3: Alternatives Routes between Thai and China
The Bangkok-R3W-Kunming Route
The first Kunming-Bangkok route starts from Bangkok to Chiang Rai, running
on the 830 km. four lane highway, which is the main north-south highway of Thailand. Then, it goes from Chiang Rai to a Thai’s border town, named Mai Sai, on the 60 km. four lanes highway. After that, it passes a border bridge to a Myanmar’s border town, named Tachilek, which is the starting point of a major highway named R3W(R3B).
This first part of R3W locates in Myanmar. This section is two-lane two-way 253 km, starting from Tachilek to Keng Tung, and to Mong La. Although, the construction work is completed, the quality is still under the standard of international highway. However, small to medium trucks are capable of transporting via this route (see Figure 4). This route is on the Wa state in Myanmar. There are several fee stations for collecting transit taxes along this route. Especially on the section of Tachilek to Keng Tung, most taxes belong to the company that built the road.
The Bangkok-R3W-Kunming Route is on the WA State in Myanmar
Figure 4: Road Condition and Typical Transportation in the Myanmar R3W
highway (Banomyong et al., 2006)
The last section of R3W is Mong La to Yunjinghong, 140 km two-lane two-way highway. The road is still under improvement. Figure 5 shows the road condition of the China’s two-lane two-way highway, which illustrates the China readiness.
Figure 5: the road condition of the R3W China’s Two-Lane Two-Way highway
near Yunjinghong (Banomyong et al., 2006) Then, the last section of the Bangkok-R3W-Kunming route is the route 540 km
R3 highway, which links Yunjinghong and Kunming. From Yunjinghong to Xuxi the highway is four-lane two-way and from Xuxi to Kunming is six-lane two-way. Figure 6 illustrates the road condition of Yunjinghong to Xuxi. Within the year 2007, China aims to finish the improvement of this highway by making it better and shorter.
Figure 6: the road condition of the R3 highway, Four-Lane Two-Way highway
near Yunjinghong (Banomyong et al., 2006) Although the construction of this route has been significantly completed a few
years ago, most merchants and logistic service providers are reluctant to use this route. The major barriers are located in Myanmar, which are 1) Myanmar political issues. 2) Policies of transit fee, and 3) Quality of the highway. The minor barriers are
international logistics collaborations, which have been on the process of improvement (e.g. Cross-Border Transport Agreement).
The Bangkok-Mekong-Kunming Route
The Bangkok-Mekong-Kunming route also uses the 830 km. Bangkok to Chiang
Rai as the first section. Then, the second section is a local highway from Chiang Rai to Chiang San port, which is the Thai major port in the Mekong river. The length is about 60 km. Thai government has a plan to improve this section of highway into a 40 km route and to build the new port in the near-by location.
The third section is Mekong river. All the goods have to be relocated from trucks to ships. The length of this section is about 287 km from Chiang San to Kuwnlei or about 360 km from Chiang San to Yunjinghong. The Yunjinghong port, other than Kuwnlei, is planned for passenger accommodation , but not for commodity transportation. Since the Kuwnlei port is about 75-80 km far from Yunjinghong, the Kuwnlei port is positioned as a strategic port for the area.
After all of the goods pass through the customs process, they are reloaded into trucks or near-by warehouses. The method of loading and unloading between trucks and ships of the Mekong is still of primitive and man-power necessity . The crane and container system is still under the process of development. Then, the last section of this route is the R3 highway, as the same as the Bangkok-R3W-Kunming route. Figure 7 shows Typical China’s Port and Cargo Ship in the Mekong River
Figure 7: Typical China’s Port and Cargo Ship in
the Mekong River (Kuwnlai Port )
Nowadays, this route plays a main part serving the Thai and Yunnan logistics demands, particularly in the bulk commodities. However, this is still not effective, particularly during the first six months (November to May), during which the water levels of the river are low and the transportation capacity of the ships decrease significantly. For the worst case, during the dry season, the river water volume may not be enough for the transportation. However, China succeeded in improving the transportation efficiency of the upper Mekong river from Yunjinghong to Chiang Khong (Upper Mekong Navigation Improvement project).
Risks of transportation in this river are relatively high, no insurance company officially guarantees the logistics services along this river, therefore the transportations normally do carry on during the daytime.
Typically, the travel time between Chiang San and Yunjinhong is about 1 day upstream and 3 days downstream. Most transportation fleets are owned by Chinese, Loa, and Myanmar, respectively. Only skillful captains can effectively manage the ships.
Due to the installation of several dams along the northern part of river, China can now control the transportation flows along this river. Practically, China has the advantages beyond other GMS countries in term of transportations. Furthermore, the issues of environmental impacts for these changes on the Mekong river are still questionable in terms of sustainability and fairness (Berman, 1998).
The most barriers of transportation forn this route come from the natural and human factors. They can be summarized as 1) Volume of water during the dry season, 2) Risks due to the obstructions, 3) Environmental Impacts, 4) Political issues. Other barriers, such as infrastructure capability and logistics technologies can be feasibly improved step-by-step.
The Bangkok-R3E-Kunming Route
The last alternative route is R3E highway, which connects Thai and China
through the highland of Loas. The first section also starts from the Asian highway, Bangkok-Chiang Rai. While the second section is the highway 1152 and 1020 from Chiang Rai to Chiang Khong. This section is about 110 km long. Chiang Klong, a border city, has no bridge crossing the Mekong river yet. All cars and trucks have to use ferry boats for river crossing. The Chiang Khong bridge is expected to start the construction in the next few years. The ferries reach another side of river at Huay Xay, a border city of Loas.
The third section starts from Huay Xay, Louangnamtha, to Boten. This section is 228 long. This is the last section that is still under construction. The construction is divided into three parts responsibilitywise: Thai, Loas (supported by ADB), and China. According to the plan, the section will be finished in 2007 (see Figure 8). Boten is the end city of Loas. Another is called Mohan, a China border city. The last section, between Boten and Kunming is about 736 km. If China finish the upgrade and all construction along the section, the distance between Boten and Kunming can be shortened to 688 km.
The Bangkok-R3E-Kunming route is expected to be a major logistics route for road transportation (Kunming-Bangkok Expressway). During the R3E section, truck fleet can use this two-lane two-way highway at reasonable speeds, according to the slope, curve, and road conditions (e.g. 40 to 60 km/h at mountain condition). The design is expected to meet the international standards enabling container trucks participation in transportation.
The foreseen barrier of the route is the delay of the Mekong bridge construction crossing at Chiang Khong. However, the ferry boat can be temporarily utilized though causing a system bottleneck.
The characteristics of Kunming-Bangkok route can be summarized as shown in Table 1. Although the distances of these three routes are not significantly different, each route has its own peculiarity. Presently, the Mekong river route is the major logistics route. On the other hand, due to the Myanmar political issues and the transit fee, the R3W route is rarely used. When the R3E section is completed, this Bangkok- -Kunming expressway is hypothesized of bringing major changes into this region. Table 1: Basic Characteristics of Kunming-Bangkok Routes
Route Choice (Distance, km)
Logistics Infrastructure through Myanmar(R3W)
via Mekong River
through Loas (R3E)
Bangkok-Chiang Rai 4 lanes highway 830 830 830 Chiang Rai – Mai Sai 4 lanes highway 60 Chiang Rai – Chiang San 2 lanes highway 60 Chiang Rai – Chiang Khong 2 lanes highway 110 R3W 2 lanes highway 253 Mekong River Mekhong River
1817 1784 1856 Remark: Approximated distances after all projects is completed in 2007 Modeling Methodology
Typically, in analyzing the behavior of mode choice in transportation, econometric formulation (e.g. logit and probit model) is used. This method has several advantages, particularly in the detail analysis level. However, it has several drawbacks, in term of computational and data requirements, that the standard discrete choice models are immense. This study suggests a schematic model for analysis mode choice that is based on the Analytical Hierarchy Process (AHP) concept. Banai-Kashani (1989) proposed the application of AHP in near-by domain. (i.e. a procedure for the problem of
multimodal urban corridor travel demand estimation by using the Analytic Hierarchy Process). He noted that the AHP approach deals efficiently with multidimensionality, nested demand structure and discrete travel decision making behavior. Liberatore (1995) successfully applied this method in the transport carrier and mode selection problem.
This study extends this concept for the logistics flow path problem, which
considers route and mode selection. The model consists of three main parts: system assessment, AHP, and sensitivity analysis (see Figure 9). A network mode represents a logistics infrastructure system, including arches and nodes. Arches represent potential logistics route that normally are lowest transportation cost (e.g. shortest path). Nodes stand for major cities or economic hubs. The information from the assessment part is used the AHP for evaluating choices. After that, sensitivity analysis can be applied.
Figure 9: Modeling Framework This methodology can be extended from deterministic to stochastic level of
analysis by using Mote-Carlo technique. Stochastic modeling can give flexibility in terms of subjective judgment of inputs. Logistics Infrastructure Modeling
To have an insight in the logistics between Bangkok and Kunming, a network model of the logistic infrastructure system is formulated, as shown in Figure 10. Bangkok and Kunming are the primary economic hubs of Thailand and Yunnan, respectively. Chiang Mai is the secondary economic hub that locates between these two cities. Chiang Rai and Yunjinghong are defined as gateway cities. Each of these has its own border and port cities, such as Mai Sai, Chiang San, Chiang Khong for Chiang Rai and Kuanlei for Yunjinghong. These figures imply the confrontation of two economic zones: Chiang Rai and Yunjinghong economic zones. Figure 11 shows the Kunming-Bangkok routes (e.g. R3W, Mekong river, R3E) and also the other modes of transports, such as airway and seaway.
According to the model, the channels from Bangkok to Kunming are simplified as 1) Airway, 2) Seaway, 3) Continental link via R3W, 4) Continental link via Mekong
river, and 5) Continental link via R3E. Approximated details of the channels are set up as shown in Table 2. Key Performance Indexes of A Logistics System This study suggests four main indexes for selecting proper logistics links: cost, time, reliability of service, and safety of service. Cost refers to net logistics cost (e.g. transportation, tax, logistics service costs, etc.). Time stands for total travel time (e.g. transportation time, idle time, custom processing time, etc.). Reliability of service means ability to delivery on-time. Safety of service refers to chance of damaging or defecting of packages due to transportation. Access to data in the ASEAN region is quite difficult, particularly in the border zones (Banomyong, et al., 2002). According to the nature of data sources and limited assessment, this study measures the data in both quantitative and qualitative ways.
R3
Train TransportBKK-CM
Air TransportCM-KM
R3
Mekong RiverMekong River
BKK-CR/A1
R3
Local HW
A1 Local HW
CM-CR
BKK-CM
Air TransportBKK-KM
Sea Transport
Train TransportHK-KM
R3/R3E
R3W
Bangkok
Kunming
Yunjing
hong
Hongkong
Chiang Rai
Mai Sai
Chiang Khong
Chiang San
Chiang Mai
Kaunlei
Figure 10: A Network Model of Bangkok-Kunming Logistics Infrastructure
Table 2: Examples of Logistics Performance for Each Channel Cost
For the continental link, variability of cost is relatively high, particularly in the part of border and China sections. The cost typically depends on marketing mechanism and bargaining power (e.g. volume of order and relationships between customer and providers). For example, the cost of Mekong transportation will be high during the dry season. Variability of delivery time is tentatively high too, typically logistics service providers (LSPs) put high contingency time for their customer. Normally variability locates at custom or any logistics service processes. For the Mekong river, time variability is very high during the dry season. Analysis and Results According to the study assessment, the characteristics of each alternative channels are shown in Figure 11. Cost and time are quantified and normalized. For the reliability and safety of service, Eigenvector method is used to determine the relative ranking of alternatives (Saaty, 1990). The higher the value, the better the performance.
Figure 11: Logistics Performance Assessment of Each Alternative Channel
If the characteristics of logistics demand are cost-oriented (e.g. bulk commodities), the Bangkok-R3E-Kunming and Seaway routes give the highest score, respectively, as shown in Table 3. However, if the characteristics of logistics demand is time-oriented (e.g. flower and handicraft), the Airway and Bangkok-R3E-Kunming routes give the highest score, respectively, as shown in Table 4. Table 3: Examples of Logistics Performance for Each Channel: Cost-Oriented
Alternative Logistics Channels Performance Dimensions Air Sea Mekong R3E
Figure 12 and 13 shows examples of stochastic perspectives of the logistics channel analysis. Time and cost variability are included. In terms of cost-oriented, the Bangkok-R3E-Kunming route gains higher score than the others; however, it cannot dominate anyone (Figure 13). In terms of time/quality-oriented, the Airway and Bangkok-R3E-Kunming routes are the first two dominant routes.
Figure 12: Examples of Logistics Performance for Each Channel: Cost-Oriented
Figure 13: Examples of Logistics Performance for Each Channel: Time-Oriented
Summary This study illustrates the basic information of the Bangkok-Kunming routes. A
network model of the logistics system between these two cities is also formulated. A quantitative methodology, named Analytical Heretical Process (AHP), is used to evaluate the potential of these routes. Deterministic and stochastic examples are also presented. According to the assumptions, the results indicate that the Kunming-Bangkok will play an importance role as a new logistics channel for connecting between the main economic cities of Thailand and Yunnan, China. Once the Kunming-Bangkok expressway project is accomplished, This expressway is expected to be a capstone of logistics breakthrough in this region.
References: Banai-Kashani, R. (1989), “Discrete mode-choice analysis of urban travel demand by
Banomyong R, Iwata S, & Kumazawa K (2002) Issues in cross-border inter-city freight transport in ASEAN, Thammasat Journal of Business Administration, Special Issue on Supply Chain Challenges in Asia, 19 November 2002, pp. 59-69, ISSN 0125-233X.
Banomyong, R., Sopadang, A., Thiengburanathum, P., Taesiriphet, C., Saichan, K. (2006), “A Study of Logistics System of Thailand-Chinese Trade in the Context of ASEAN-China Free Trade Agreement: Case Study of Border and Transit Trade.” Progress Report #1.
Berman, M. L. (1998), “Opening the Lancang (Mekong) River in Yunnan: Problems and Prospects for Xishuangbanna,” Master Thesis, University of Massachusetts Amherst, USA.
Liberatore, M. (1995). "A decision support approach for transport carrier and mode selection". Journal of Business Logistics,
United Nations (2001), Asian Highway: the Road Networks connecting China, Kazakhstan, Mongolia, the Russian Federation and the Korean Peninsula, Policy-level Expert Group Meeting, 10-12 October, Bangkok.
Products What are you looking for... Search For Buyers For Suppliers Help
Home Open Data Mining Find Buyers Vendor Credit Reports Price Search Product Search
Home > Product Directory > Quality and Capacity
Myanmar Ye Huang Ming Corps
Company Home Product Quality and Capacity Price List About Us
Request a Quote
Subject
Re: Myanmar Ye Huang Ming Corps
* Your company
* Your name
* Your email
* Your phone
* Message
Company Details
Company Name:Myanmar Ye Huang Ming Corps
Address:
City:Rangon
Country:Myanmar
Post Code:
Tel:86-251-20251254
Fax:
Contact Person:Daniel Ding
Company Type:
Certificate Name:
Year Established:2008
Production Capacity:10,000 REO/Year
Annual Sales:
Number of Employees:500
Company Photo
Certificate Photo
Company Introduction:
How are you. I am Daniel Ding from Myanmar Ye Huang Mining company. It's my honor to know you and your company is make business with Rare earth. We are a Myanmar Mainly Rare Earth mining company so write for you to establish a long cooperation with yours.
Firstly I'd like to introduce ourselves to yours.We are the biggest Rare earth mining company which located in Kokang Myanmar. We totally have 5 RE mines which in the Border Myanmar Side between China and Myanmar.The annual output could reach 10,000 MT Mix REO or Oxalate. Also our TREO could reach 92% above and low radioactive include.Wish you will like our Mines.
According to these resources, we could provide following product which separated from our Own Mines.Rare Earth Element/ Carbonate/Oxalate,Rare Earth Element of Ce,La,Y,Pr,Nd,Sm,Eu,Tb,Dy,Er,Tm,Yb,LuRare Earth Magnet,
Rare Earth Metal of Ce,La,Y,Pr,Nd,Sm,Eu,Tb,Dy,Er,Tm,Yb,Lu,FeDy etc.
Above product,we have big stock now. If you have any demanding of these,please contact us freely. Our price and quality is much more competitive than China. You could have a try and check.
We are sincerely want to find some long time cooperation partner at present. Attached is our mining area's brief introduction.Please check it.Thanks. Any others info. plase contact us freely or welcome your visit to us.Thanks
M y a n m a r Y e H u a n g M i n i n g C o r p s .
C o m p a n y D e s c r i p t i o n
How are you? I am Daniel Ding from Myanmar Ye Huang Mining company. Myanmar Ye Huang Mining Corps.Myanmar Mainly Ionic Rare Earth mining company.
Firstly I\'d like to introduce ourselves to yours. We are than biggest Rare earth mining company which locatedin Kokang. We totally have 5 RE mines which in the Border Myanmar Side between China and Myanmar. Theannual output could reach 10,000 MT Mix REO or Oxalate. Also our TREO could reach 92% above and lowradioactive include. Wish you will like our Mines.
According to these resources, we could provide following product which separated from our Own Mines. Rare Earth Element/ Carbonate/Oxalate, Rare Earth Element of Ce,La,Y,Pr,Nd,Sm,Eu,Tb,Dy,Er,Tm,Yb,Lu Rare Earth Magnet, Rare Earth Metal of Ce,La,Y,Pr,Nd,Sm,Eu,Tb,Dy,Er,Tm,Yb,Lu,FeDy etc.
Above product, we have big stock now. If you have any demanding of these, please contact us freely. Ourprice and quality is much more competitive than China. You could have a try and check.
We are sincerely want to find some long time cooperation partner at present. Attached is our mining area\'sbrief introduction. Please check it. Thanks. Any others info. Please contact us freely or welcome your visit tous. Thanks
C o m p a n y I n f o r m a t i o nC o n t a c t P e r s o n :D a n i e l D i n g T e l e p h o n e :
B u s i n e s s T y p e :M a n u f a c t u r e r Y e a r E s t a b l i s h e d :2 0 0 8
N u m b e r O f E m p l o y e e s :5 0 1 - 1 0 0 0
T o t a l A n n u a l S a l e s V o l u m e :U S D 5 0 , 0 0 0 , 0 0 1 - 1 0 0 , 0 0 0 , 0 0 0
M a i n P r o d u c t s :R a r e E a r t h, R a r e E a r t h E l e m e n t , R E , R E O,R E E, H R E , D y , C e , L A , R a r e E a r t h O x a l a t e ,
A d d r e s s :S a k u r a B u i l d i n g Y a n g o n Y a n g o n M y a n m a r
W e b s i t e :V i s i t w e b s i t e
P r o d u c tH e a v y R a r e E a r t h
C o n c e n t r a t e
H e a v y R a r e
E a r t h
H e a v y R a r e E a r t h
O x i d e
L i g h t R a r e E a r t h
C o n c e n t r a t e
L i g h t R a r e E a r t h
C o n c e n t r a t e
L u t e t i u m
O x i d e
C e r i u m
M e t a l
D y s p r o s i u m
M e t a l
E r b i u m
M e t a l
E u r o p i u m
M e t a l
L a n t h a n u m
M e t a l
N e o d y m i u m
M e t a l
P r a s e o d y m i u m
M e t a l
T e r b i u m
M e t a l
Y t t r i u m
M e t a l
M y a n m a r M i n e r a l s & M e t a l l u r g y R e l a t e d C o m p a n yM e t a l P r i n c e M i n i n g C o . , L t d .
C h r o m i t e O r e , A n t i m o n y O r e , C o p p e r O r e , L e a d O r e
M a r c u s B e l l y
G l a s s F i b e r C o m p o s i t e s C a r p e t , G e o t e x t i l e , 3 D V e g e t a t i v e C o v e r N e t , G e o m e m b r a n e , T e r y l e n e …
M e g a O n e I n t ' l C o , L t d
r u b b e r r o l l e r
S w e e t y H o m e I n d u s t r y C o . , L t d .
C a t e g o r yM i n e r a l s & M e t a l l u r g y
M a g n e t i c M a t e r i a l s
M y a n m a r M i n e r a l s & M e t a l l u r g yM y a n m a r M a g n e t i c M a t e r i a l s
R e l a t e d P r o d u c t
l i f t i n g m a g n e t
M a g n e t M o t o r
m a g n e t i c p h o t o f r a m e
M a g n e t L i f t i n g
C o n s i s t e n c y
m a g n e t b a l l
N d F e B p e r m a n e n t m a g n e t
m a g n e t i c n a m e b a d g e
s t r o n g m a g n e t s
HomeHome CategoriesCategories CountriesCountries My CompaniessMy Companiess Add My Company FreeAdd My Company Free Share:
s p r i n g m a t t r e s s , h o m e & o f f i c e f u r n i t u r e , f o a m & k a p o k m a t t r e s s .
M y a n m a r E l e g a n c e I n t e r n a t i o n a l
i m p o r t , s t e e l s t r u c t u r e s , r a i l w a y e q u i p m e n t s , c o n s t r u c t i o n a n d m a n u f a c t u r i n g m a c h i n e r i e s , t o …
X p l u s T r a d i n g C o , L t d .
P o t , V a s e , B u d d h a s t a t u e
N a n K a N a u n g M i n i n g & E n g i n e e r i n g C o ; L t d
M a n g a n e s e O r e
K a t a y K a d e r M i n i n g C o . , L t d
s t i b i u m o r e
M a d i n a S t a r C o , L t d
L e a d o r e s , T e a k L o g s , P y i n k a d o L o g s , S o f t s h e l l c r a b , S c r a p , D i s p l a y s
L o c u s I n t e r n a t i o n a l C o , , L t d
A n t i m o n y o r e s , T i t a n i u m o r e s , P l a t i n u m
Countries China India Indonesia Malaysia Pakistan Turkey United Kingdom United States All Countries
Stay posted Read the blog EUROPAGES in your pocket
EUROPAGES ACROSS THE GLOBE
26 versions available on http://www.europages.com
Search for your business page
EUROPAGES is a European B2B brokering platform. Its website currentlylists upwards of 2.6 million companies, namely manufacturers, serviceproviders, wholesalers and distributors. Every month more than 2 millionunique visitors come to the www.europages.com site through its 26language versions, to search through the classified EUROPAGES database.
Is your company listed on EUROPAGES?
ExploreBrowse SectorsNew Products
Ads by Google related to: Mining and quarrying - machinery and equipment
Parts And Services About Us CatalogsContact Us Drilling ServicesHome Performance Tooling
boartlongyear… Mining EquipmentTrust Boart Longyear For The Most Advanced Technology & Innovation
▼
mineralsmake… Minerals Make Life Learn How Minerals Are Critical In The Technologies Of Our Nation.
▼
zenithmills.co… Quarry Plant For sale 30-800TPH Capacity Quarry Plant. Free Inquiry Online, Get Price Now!Professional Manufacturer · 7/24 Online Service · Local Office · Accessories DiscountTypes: Ball Mill, Raymond Mill, Vertical Mill, Ultrafine Mill
▼
Corporate informationB2B marketing solutionsCustomer testimonialsHelp and support
PartnersTerms and conditionsPrivacy policyLegal information
About EUROPAGES
Register your companyCreate a web page on EUROPAGESBecome a PREMIUM member
Update your web pageLog onto your myEUROPAGES account
EUROPAGES SA127 avenue Charles de Gaulle92521 Neuilly-sur-Seine CedexFrance
Contact EUROPAGES
Customer ServiceEUROPAGES+33 (0)1 41 16 49 14
Contact EUROPAGES
CERTIFICATION
OJD certifies the websitetraffic(Not including mobiletraffic)
OJD is a member of theInternational Federation ofAudit Bureaux ofCirculations